Physiology of Exercise Lab Exam 2 EXPH 4145 Labs VI-X
Which of the following statements are true regarding the Oxygen deficit and EPOC collected on a trained individual completing a moderate intensity exercise bout.
EPOC will be larger than Oxygen Deficit
total kcal from fat/cho
Energy expended x % kcal from fat/cho
considering rhythm strips F-J on page 31 of your packet, which strip has evidence of tachycardia?
F
considering rhythm strips F-J on page 31 of your packet, which strip would you expect to record during an exercise bout?
F
Which of the following fiber types would tend to have the lowest PFK (phosphofructokinase) activity?
I
Which of the following fiber types would tend to have the most myoglobin?
I
considering rhythm strips F-J on page 31 of your packet, which strip has evidence of multifocal PVCs?
I
on EKG 26 is there any evidence of myocardial ischemia? if so, in what leads do you see significant evidence of acute infarction? select all that apply
I, AVL
Myosin heavy chain IIA and Myosin heavy chain IIX would both be found in which fiber type?
IIAX
Myosin heavy chain IIX would be the predominant type of myosin in which fiber type?
IIX
Which of the following fiber types would be easiest to fatigue?
IIX
Which of the following fiber types would tend to have the highest PFK (phosphofructokinase) activity?
IIX
Which of the following fiber types would tend to store the least intramuscular triglycerides (lipids)?
IIX
Which of the following fiber types would tend to store the most glycogen?
IIX
When using the hold-relax procedure to try to increase the stretch of a muscle we make use of which of the following reflex phenomena?
Inverse stretch reflex
If the weather report (or your sling psychrometer) say that the wet bulb temperature was 74F and the dry bulb temperature was 75F. The temperature in the lab was 22C (75F), the subject's core temperature was 37.1C, and their skin temperature was 34.4. Which of the following are true about the humidity under these circumstances?
It is very humid
If the weather report (or your sling psychrometer) say that the wet bulb temperature was 78F and the dry bulb temperature was 80F, and your subject's core temperature was 37.2C, and their skin temperature was 36.5. Which of the following are true about the humidity under these circumstances?
It is very humid
Which of the following torque curves best depicts the expected torque curve we would expect for a muscle group with long muscle fibers?
K - up, straight across, then down
Which of the following torque curves looks most like the torque curve we recorded for the hamstrings on the Biodex in lab (video)?
K: Goes up, straight across, then down
Force = Kg x 9.8 m/sec2 = Newtons Velocity = RPM x 6 meters/revolution x 1min/60 sec = meters/sec Power = force x distance / time = Newtons x meters/sec = Nm/sec = J/sec = Watts Work = Power x time = Watts x (total work time, sec) = Joules Joules x 0.00024 Kcal/ Joule = Kcal
0
How much power is produced when performing an isometric bicep curl, your subject held a/n 17 pound weight a distance of 0.45 meters off the floor for 0.42 seconds. No units required
0
How much power is produced when performing an isometric bicep curl, your subject held a/n 27 pound weight a distance of 0.26 meters off the floor for 0.27 seconds. No units required
0
On EKG # 18 in your EKG packet, what is the subject's mean electrical axis (in degrees)? (no units required)
0
On EKG # 20 in your EKG packet, what is the subject's mean electrical axis (in degrees)? (no units required)
0
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 23 minutes. Her resting VO2 was 0.19 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 2.39 L/min, and her her exercise RER was 0.70, how many kcals of carbohydrates did she expend during this exercise bout? no units required
0
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 76 minutes. Her resting VO2 was 0.31 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 2.35 L/min, and her her exercise RER was 1.00, how many kcals of fat did she expend during this exercise bout? no units required
0
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 80 minutes. Her resting VO2 was 0.26 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 1.40 L/min, and her her exercise RER was 1.00, how many kcals of fat did she expend during this exercise bout? no units required
0
Which of the following is a reasonable number for resting FECO2 in a recreationally fit female subject?
0.03
From the data set below, what is this subject's oxygen deficit? (no units required) 12345678 minute Res t0.190.250.290.230.24 Exercise0.861.121.281.351.271.321.361.34 Post 0.790.660.550.490.400.290.200.24
0.66
Calculate the STPD correction factor using the following data (report final answer with 3 decimals, no units required): Subject Weight = 157 lb female BTPS Correction Factor = Heartrate = 161 b/m Subject age = 22 years of age STPD Correction Factor = Resp Rate = 31 br/min Ambient pressure = 744 mmHg Ve-ATPS = 68.0 L/min RPE = 13 Ambient temperature = 23 celcius FEO2 = 15.80 % PH20@ 21 celcius = 21.1 mmHg FECO2 = 4.95 %
0.877
Calculate the STPD correction factor using the following data (report final answer with 3 decimals, no units required): Subject Weight = 157 lb female BTPS Correction Factor = Heartrate = 161 b/m Subject age = 22 years of age STPD Correction Factor = Resp Rate = 31 br/min Ambient pressure = 747 mmHg Ve-ATPS = 68.0 L/min RPE = 13 Ambient temperature = 19 celcius FEO2 = 15.80 % PH20@ 21 celcius = 16.5 mmHg FECO2 = 4.95 %
0.899
Which of the following is a reasonable number for RER at high, but not maximal intensities?
0.90
Calculate the STPD correction factor using the following data (report final answer with 3 decimals, no units required): Subject Weight = 157 lb female BTPS Correction Factor = Heartrate = 161 b/m Subject age = 22 years of age STPD Correction Factor = Resp Rate = 31 br/min Ambient pressure = 759 mmHg Ve-ATPS = 68.0 L/min RPE = 13 Ambient temperature = 20 celcius FEO2 = 15.80 % PH20@ 21 celcius = 17.5 FECO2 = 4.95 %
0.91
Calculate the Nitrogen Factorfrom the following data (report final answer with 3 decimals, no units required): Subject Weight = 157 lb female BTPS Correction Factor = 1.097 Heartrate = 161 b/m Subject age = 22 years of age STPD Correction Factor = 0.8935 Resp Rate = 31 br/min Ambient pressure = 750 mmHg Ve-ATPS = 68.0 L/min RPE = 13 Ambient temperature = 21 celcius FEO2 = 15.80 % PH20@ 21 celcius FECO2 = 4.85 %
1.004
Calculate the Nitrogen Factorfrom the following data (report final answer with 3 decimals, no units required): Subject Weight = 157 lb female BTPS Correction Factor = 1.097 Heartrate = 161 b/m Subject age = 22 years of age STPD Correction Factor = 0.8935 Resp Rate = 31 br/min Ambient pressure = 750 mmHg Ve-ATPS = 68.0 L/min RPE = 13 Ambient temperature = 21 celcius FEO2 = 17.13% PH20@ 21 celcius FECO2 = 3.5 %
1.004
Calculate the Nitrogen Factorfrom the following data (report final answer with 3 decimals, no units required): Subject Weight = 157 lb female BTPS Correction Factor = 1.097 Heartrate = 161 b/m Subject age = 22 years of age STPD Correction Factor = 0.8935 Resp Rate = 31 br/min Ambient pressure = 750 mmHg Ve-ATPS = 68.0 L/min RPE = 13 Ambient temperature = 21 celcius FEO2 = 15.80 % PH20@ 21 celcius FECO2 = 4.32 %
1.011
Your subject has an arterial O2 content of 17.0 vols%, a venous O2 of 8.5 vols%, an RR interval of 0.44 sec, and a stroke volume of 100 ml/beat. What is this subject's absolute VO2? calculate to 2 decimal places, no units required
1.16
Which of the following is a reasonable number for RER during a VO2max test that meets all validity criteria?
1.25
From the data set below, what is this subject's oxygen deficit? (no units required) 12345678 minute Rest0.360.420.460.400.41 Exercise2.032.653.003.123.053.133.173.13 Post 1.871.561.311.150.940.690.470.41
1.68
Your subject has an arterial O2 content of 17.9 vols%, a venous O2 of 6.2 vols%, an RR interval of 0.36 sec, and a stroke volume of 96 ml/beat. What is this subject's absolute VO2? calculate to 2 decimal places, no units required
1.87
Your subject is a 207 pound male subject who is 18.9 % body fat. You recently measured his VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. His resting VO2 was 0.39 L/min, exercising RER was 0.93, and exercise VO2 was 1.9. How many pounds would she need to lose if she wanted to be 14.8 % body fat?
10
Your subject is a 32 year old beat farmer named Dwight Shroot. He weighs 84.3 kg. you collected the following data from him during his Wingate test. The average wattage from his test was 603 Watts. What is his relative maximal anaerobic power?
10.2
Your subject is a 122 pound female subject who is exercising on a treadmill. Her VO2 is 2.0 L/min and her RER is 0.75. This subject is exercising at how many times their resting metabolic rate? (no units required, calculate to the nearest tenth)
10.3
Your subject is a 30 year who is a receptionist, artist, and mom. She weighs 61.6 kg. You collected the following data from her during his Wingate test. The average wattage from her test was 465 Watts. What is her relative maximum anaerobic power?
10.3
Your subject is a 174 pound male subject who is 19.9 % body fat. You recently measured his VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. His resting VO2 was 0.25 L/min, exercising RER was 0.77, and exercise VO2 was 2.0. How many pounds would she need to lose if she wanted to be 14.8 % body fat?
10.4
Your subject is a 153 pound female subject who is 33 % body fat. You recently measured her VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. Her resting VO2 was 0.35 L/min, her exercising RER was 0.93, and her exercise VO2 was 2.3. What is her lean body mass (LBM) in pounds? (no units required)
102.5
Your subject has a cardiac output of 13.9, a heart rate of 155, and a blood pressure of 162/73. What is their mean arterial pressure? (no units required)
103
Your subject is a 144 pound female subject who is 28 % body fat. You recently measured her VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. Her resting VO2 was 0.20 L/min, her exercising RER was 0.93, and her exercise VO2 was 1.6. What is her lean body mass (LBM) in pounds? (no units required)
103.7
Your subject has a cardiac output of 14.1, a heart rate of 110, and a blood pressure of 150/81. What is their mean arterial pressure? (no units required)
104
How much power is produced when performing a military press, your subject moved a/n 35 pound weight a distance of 0.33 meters in 0.47 seconds. No units required
109.5
Your subject is a 137 pound female subject who is exercising on a treadmill. Her VO2 is 2.4 L/min and her RER is 0.83. Her resting VO2 was 0.26 L/min. How many METs is she exercising at? (no units required, calculate to the nearest tenth)
11.0
Your subject is a 30 year paper salesman named Jim Halpert. He weighs 76.3 kg. you collected the following data from him during his Wingate test. The average wattage from his test was 577 Watts. What is his relative maximal anaerobic power?
11.4
Your subject has a hemoglobin concentration of 15.4 g/dL, an SaO2 of 97%, a VO2 of 1.6 cardiac output of 13.5, a heart rate of 151, and a blood pressure of 154/94. What is theira-vO2difference? (no units required)
11.9
Your subject has a hemoglobin concentration of 15.9, an SaO2 of 99 VO2 of 1.2 cardiac output of 12.0, a heart rate of 116, and a blood pressure of 161/79. What is their venous O2 content? (must include units )
11.9
How much power is produced when performing a bicep curl, your subject moved a/n 29 pound weight a distance of 0.25 meters in 0.28 seconds. No units required
115.3
Your subject has a cardiac output of 13.2, a heart rate of 114, and a blood pressure of 150/93. What is their stroke volume in ml/beat? (no units required)
116
Your subject is a 164 pound male subject who is 27.8 % body fat. You recently measured her VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. Her resting VO2 was 0.22 L/min, her exercising RER was 0.87, and her exercise VO2 was 2.1. What is her lean body mass (LBM) in pounds? (no units required)
118.4
In lab we collected data related to force-velocity and power-velocity relationships. One such set of data is presented graphically below. Low speed resistance training would increase which concentric data point the most?
O
In our recent lab we did experiments related to several aspects of muscle performance including force, velocity, power, and muscle length. Which of the following figures best depicts the length-passive tension curve?
O
Your subject is a 161 pound male subject who is 25.6 % body fat. You recently measured her VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. Her resting VO2 was 0.20 L/min, her exercising RER was 0.87, and her exercise VO2 was 1.9. What is her lean body mass (LBM) in pounds? (no units required)
119.8
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 17 minutes. Her resting VO2 was 0.30 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 1.80 L/min, and her her exercise RER was 0.72, how many kcals of energy did she expend during this exercise bout? no units required
119.9
Your subject is a 167 pound female subject who is 27 % body fat. You recently measured her VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. Her resting VO2 was 0.20 L/min, her exercising RER was 0.93, and her exercise VO2 was 1.8. What is her lean body mass (LBM) in pounds? (no units required)
121.9
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 18 minutes. Her resting VO2 was 0.25 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 1.62 L/min, and her her exercise RER was 0.96, how many kcals of energy did she expend during this exercise bout? no units required
123.3
On EKG 22, what is this subject's HR in box A?
125
fasting plasma glucose concentration greater than ____is associated with increased CAD risk (no units required)
126
Your subject is a 42 year old female who lasted 3 minutes on the Bruce protocol during her stress test. What is her approximate relative VO2max?
13
Your subject is a 143 pound female subject who is 27.0 % body fat. You recently measured her VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. Her resting VO2 was 0.24 L/min, her exercising RER was 0.93, and her exercise VO2 was 2.3. How many pounds would she need to lose if she wanted to be 19.7 % body fat?
13.0
Your subject is a 147 pound female subject who is 26.3 % body fat. You recently measured her VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. Her resting VO2 was 0.19 L/min, her exercising RER was 0.86, and her exercise VO2 was 2.3. How many pounds would she need to lose if she wanted to be 19.0 % body fat?
13.2
Your subject is a 122 pound female subject who is exercising on a treadmill. Her VO2 is 2.6 L/min and her RER is 0.82. This subject is exercising at how many times their resting metabolic rate? (no units required, calculate to the nearest tenth)
13.4
Your subject has a hemoglobin concentration of 15.4 g/dL, an SaO2 of 97%, a VO2 of 1.7 cardiac output of 12.5, a heart rate of 142, and a blood pressure of 142/90. What is theira-vO2difference? (no units required)
13.6
Your subject is a 165 pound male subject who is 20.7 % body fat. You recently measured his VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. His resting VO2 was 0.25 L/min, exercising RER was 0.75, and exercise VO2 was 2.2. How many pounds would she need to lose if she wanted to be 13.4 % body fat?
13.9
LDL concentration greater than ____is associated with increased CAD risk (no units required)
130
How much power is produced when performing a bicep curl, your subject moved a/n 25 pound weight a distance of 0.33 meters in 0.27 seconds. No units required
136.1
Your subject is a 166 pound male subject who is 16.8 % body fat. You recently measured her VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. Her resting VO2 was 0.29 L/min, her exercising RER was 0.87, and her exercise VO2 was 1.6. What is her lean body mass (LBM) in pounds? (no units required)
138.1
Your subject has a stroke volume of 101 ml/beat, a heart rate of 144, and a blood pressure of 151/94. What is their cardiac output in L/min? (no units required)
14.5
According to the current American College of Sports Medicine (ACSM) Guidelines for Exercise Testing and Prescription (i.g. the handout we used), systolic blood pressure greater than ____is associated with decreased CAD risk (no units required)
140
Your subject is a 181 pound female subject who is 22 % body fat. You recently measured her VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. Her resting VO2 was 0.31 L/min, her exercising RER was 0.93, and her exercise VO2 was 1.9. What is her lean body mass (LBM) in pounds? (no units required)
141.2
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 22 minutes. Her resting VO2 was 0.29 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 1.59 L/min, and her her exercise RER was 0.92, how many kcals of energy did she expend during this exercise bout? no units required
141.5
On EKG # 22 in your EKG packet, what is the subject's mean electrical axis (in degrees)? (no units required)
15
Match the following with the appropriate parts of this figure:
15 vols%: E Arterial O2 content: D 100: G POS in systemic: F curve with high H+: H cure with low H+: I
On EKG 16, what is this subject's HR in box B?
150
What is a typical maximal exercise stroke volume in a trained subject? (use ml)
150
What is a typical resting TPR (in dyn/s.cm5) for an adult human with an average cardiac output and average blood pressure?
1500
Calculate the oxygen pulse (report final answer with 1 decimal place, no units required): Subject Weight = 157 lb female BTPS Correction Factor = 1.097 Heartrate = 151 b/m Subject age = 22 years of age STPD Correction Factor = 0.8935 Resp Rate = 31 br/min Ambient pressure = 750 mmHg Ve-ATPS = 55 L/min RPE = 13 Ambient temperature = 21 celcius FEO2 = 16.1 % Nitrogen Factor = 1.003 PH20@ 21 celcius FECO2 = 4.6%
16
Your subject is a 42 year old female who lasted 4 minutes on the Bruce protocol during her stress test. What is her approximate relative VO2max?
16
Your subject has a hemoglobin concentration of 14.3, an SaO2 of 98 VO2 of 1.6 cardiac output of 13.7, a heart rate of 131, an end ejection fraction of 64 and a blood pressure of 158/70. What is their end diastolic volume in ml? (must include units of ml)
163ml
Your subject has a cardiac output of 14, a heart rate of 118, and a blood pressure of 141/87. Estimate their heart's oxygen demand. (do not need units)
16638
Your subject has a cardiac output of 12, a heart rate of 122, and a blood pressure of 137/78. Estimate their heart's oxygen demand. (do not need units)
16714
What is a typical maximal exercise a-vO2difference in a trained subject?
17
Your subject has a stroke volume of 129 ml/beat, a heart rate of 134, and a blood pressure of 155/87. What is their cardiac output in L/min? (no units required)
17.3
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 24 minutes. Her resting VO2 was 0.25 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 1.70 L/min, and her her exercise RER was 0.92, how many kcals of energy did she expend during this exercise bout? no units required
172.2
What is a typical resting arterial O2 content of an adult female human with average hemoglobin concentrations and arterial O2 saturation ([Hb] of 13.5 g/dL and an SaO2 of 98%)? No units required
18.4
What is a typical maximal exercise SBP for an adult male subject?
182
Your subject is a 178 pound female subject who is 24.5 % body fat. You recently measured her VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. Her resting VO2 was 0.28 L/min, her exercising RER was 0.92, and her exercise VO2 was 1.9. If she wanted to be 20.1 % body fat, how many weeks would it take to get to this percent body fat if she wished to lose a half pound per week?
19.6
Woman, age 36 yr, nonsmoker. Height = 64 in (162.6 cm), weight= 108 lb (49.1 kg), BMI = 18.5 kg· m-2_ RHR = 61 beats· min-1, resting BP= 142/86 mm Hg. Total cholesterol = 174mg · dL-l (4.51 mmol · 1-1), blood glucose normal with insulin injections. Type 1 diabetes mellitus diagnosed at age 7 yr. Teaches dance aerobic classes three times a week, walks approximately 45 min four times a week. Both parents in good he.alth with no hist01y of CVD. How many risk factors does this subject have?
2
Your subject has an arterial O2 content of 18.6 vols%, a venous O2 of 6.8 vols%, an RR interval of 0.33 sec, and a stroke volume of 110 ml/beat. What is this subject's absolute VO2? calculate to 2 decimal places, no units required
2.36
From the data set below, what is this subject's oxygen deficit? (no units required) 12345678 minute Rest0.170.230.270.210.22 Exercise1.341.882.252.642.572.652.692.65 Post 1.581.321.110.980.790.580.400.22
2.45
In our recent lab we did experiments related to several aspects of muscle performance including force, velocity, power, and muscle length. Which of the following figures best depicts the length-tension Total tension curve?
O
Your subject has an a-vO2difference of 10.1 vols%, an RR interval of 0.40 sec, and an end diastolic volume of 161.6 ml and an end systolic volume of 69 ml. What is this subject's stroke volume in ml? calculate to 2 decimal places, no units required
92.6
Your subject has a cardiac output of 12.5, a heart rate of 134, and a blood pressure of 162/94. What is their stroke volume in ml/beat? (no units required)
93.3
Your subject has a cardiac output of 13.8, a heart rate of 159, and a blood pressure of 140/74. What is their mean arterial pressure? (no units required)
96
Your subject is a 146 pound male exercising in a 20.5 C lab. His HR is 110 bpm, his blood lactate is 3.3 mM, his VO2 is 2.60 L/min, his RER is 0.80, his core temperature is 38.0 C, his average skin temperature is 35.2 C , and his resting VO2 was 0.32 L/min. What is his thermal gradient. No units required.
2.8
Your subject, Kevin Malone, is a 36 year old accountant at a paper company in Scranton, PA. He weighs 103.9 kg. you collected the following data from him during his Wingate test. The average wattage from his test was 585 Watts. What is his absolute maximal anaerobic power?
902.2
Your subject has a cardiac output of 14.4, a heart rate of 126, and a blood pressure of 138/76. What is their mean arterial pressure? (no units required)
96.7
What is the subject's absolute VO2 (report final answer with 2 decimals, no units required)? Subject Weight = 157 lb female BTPS Correction Factor = 1.092 Heartrate = 161 b/m Subject age = 22 years of age STPD Correction Factor = 0.891 Resp Rate = 31 br/min Ve-ATPS = 66.6 L/min RPE = 13 FEO2 = 16.10 % Nitrogen Factor = 1.003
2.9
considering EKGs 19-22, which of these EKGs has evidence of ischemia? If so, what evidence? (select two answers)
20, there was ST segment depression
Which of the following EMG tracings best depicts the electrical activity when performing an isokinetic knee extension (best leverage around 135 )?
O
looking at EKGs 19-22, do any of these EKGs have evidence of left ventricular hypertrophy? If so, what evidence? (select two answers)
EKG 19 The S in V1 and the R in V5 adds up to 35mm
looking at EKGs 3-6, do any of these EKGs have evidence of left ventricular hypertrophy? If so, what evidence? (select two answers)
EKG 4, 6 There is an inverted T wave in V5 or V6
Which of the following torque curves best depicts the resistance during a single concentric bicep curl with a 20 lb weight?
O
From the data below, was this test a valid VO2max test? Why/Why not? Select all that apply
This was NOT a valid test for determining VO2max RER criteria was met lactate criteria was met
In one of our lab VII experiments we looked at the effects of intensity on fuel substrate use. Which of the following statements regarding exercise intensity and fuel substrate use is/are NOT true?
at higher intensities the percentage of calories coming from circulating fuel sources increases
In lab we collected data related to force-velocity and power-velocity relationships. One such set of data is presented graphically below. Why does point N have a low value on this figure?
at that point power is low because force is low; with concentric actoins force decreases as velocity increases
There is evidence of which of the following rhythms/arrhythmias on EKG 25 in your packet? select all that apply
atrial fib
considering rhythm strips A-E on page 31 of your packet, which strip has evidence of a ischemia?
b
At how many times their resting metabolic
calculate rel. VO2 (Vo2 x 1,000)/kg Then rel. vo2/3.5
How many weeks would it take if he wanted to lose 1lb/wk
calculate to desired bw, 1/2lb/wk ^same steps, multiply by 1/2, then x 4
Which of the following would have the highest iEMG integral?
concentric action with low force arm:resistance arm ratio
Which of the following would produce the least force?
concentric action with low force arm:resistance arm ratio
Which of the following would require the greatest number of motor units to be recruited?
concentric action with low force arm:resistance arm ratio
Which of the following would have the highest EMG integral with a 20 pound weight at mid flexion (~90degrees)?
concentric action with poor overlap of actin and myosin
Which of the following would require the greatest recruitment of motor units with a 20 pound weight at mid flexion (~90degrees)?
concentric action with poor overlap of actin and myosin
Which of the following would have the highest EMG integral with a 15 lb weight?
concentric bicep curl 30 deg/sec
Which of the following would produce the least force?
concentric bicep curl 300 deg /sec
The EMG data below was collected during a variety of activities from the abdominal muscles (abs) and from the rectus femoris (hip flexors). Which of the following exercises best isolates the abdominal muscles?
crunch
DBP would likely be lowest for which of the following exercises?
cycling at 200 Watts (90% of max)
MAP would likely be lowest for which of the following exercises?
cycling at 200 Watts (90% of max)
Which of the following would produce the greatest force?
eccentric bicep curl 300 deg/sec
Which of the following would have the lowest iEMG integral when using a 15 lb weight?
eccentric bicep curl with forearm pronated moving at 60 degrees per second
Which of the following would have the lowest iEMG integral when using a 15 lb weight?
eccentric bicep curl with forearm pronated moving at 90 degrees per second
which of the following is/are hormones that would tend to increase blood lactate?
epinephrine glucagon
which of the following is/are hormones that would tend to increase muscle glycogen breakdown?
epinephrine glucagon
Which of the following hormones would tend to increase hepatic glucose output?
epinephrine glucagon norepinephrine cortisol
Which of the following would produce the most torque?
isokinetic knee extension mid-extension (125-135 deg)
Which of the following would have the least EMG integral with a 20 pound weight?
isometric action with good leverage
If graph iii depicts the changes in heart rate (y axis) between rest and maximal intensity cycling exercise, what is causing this change?
none of these answers, the heart rate should never be zero for a living subject
Which of the following hormones would tend to increase blood glucose? select all that apply
norepinephrine epinephrine growth hormone cortisol glucagon
Which of the following is/are relative contraindications to maximal exercise testing? Select all that apply
patient who comes to your office with a resting blood pressure of 220/92 patient who had a stroke 10 days ago patient with severe anemia
In our recent lab we did experiments related to several aspects of muscle performance including force, velocity, power, and muscle length. Which of the following figures best depicts the force-velocity curve during concentric and eccentric actions?
L
In our recent lab we did experiments related to several aspects of muscle performance including force, velocity, power, and muscle length. Which of the following figures best depicts the power-velocity curve during concentric and eccentric actions?
L
The far left panel depicts the torque curve for a muscle group performing a concentric action. Which of the other curves best represents the torque curve you would expect to see for this same muscle group during an eccentric action?
L
Which of the following EMG tracings best depicts the electrical activity of a muscle group moving a 25 pound weight and has a very very good overlap of actin and myosin at 135 ?
L
Which of the following EMG tracings best depicts the electrical activity of a muscle group that has a very high force arm:resistance arm ratio at 135 ?
L
Which of the following is the most appropriate unit for O2 deficit?
L
Which of the following torque curves best depicts the expected torque curve for an extensor muscle group?
L
Your subject is a 129 pound female subject who is 32.4 % body fat. You recently measured her VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. Her resting VO2 was 0.32 L/min, her exercising RER was 0.85, and her exercise VO2 was 2.2. How many pounds would she need to lose if she wanted to be 19.8 % body fat?
20.3
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 34 minutes. Her resting VO2 was 0.30 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 1.64 L/min, and her her exercise RER was 0.96, how many kcals of energy did she expend during this exercise bout? no units required
227.7
Which of the following torque curves looks most like the torque curve we recorded for the quadriceps femoris on the Biodex in lab (video)?
L
on EKG 04 is there any evidence of myocardial ischemia? if so, in what leads do you see significant evidence of ischemia? select all that apply
No evidence
Your subject is a 32 year old beat farmer named Dwight Shroot. He weighs 82.0 kg. you collected the following data from him during his Wingate test. The average wattage from his test was 603 Watts. What is his absolute maximal anaerobic power
906.2
Your subject is a 158.5 pound female subject who is 71 inches tall, is 21.1 % body fat. You recently measured her VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. Her resting VO2 was 0.44 L/min, exercising RER was 0.89, and exercise VO2 was 2.7. What is her BMI? (no units required)
22.2
On EKG 11 of your EKG packet, in what quadrant is this subject's mean electrical axis?
Normal
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 64 minutes. Her resting VO2 was 0.34 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 1.49 L/min, and her her exercise RER was 0.81, how many kcals of fat did she expend during this exercise bout? no units required
229.5
considering EKGs 22-25, which of these EKGs has evidence of ischemia? If so, what evidence? (select two answers) Note: one of these EKGs has a bundle branch block, which can mimic certain aspects of ischemia in some leads. You can rule this EKG out.
23, there was ST segment depression
Below you can find data from your subject's Thorstenson test. Calculate the fatigue index (FI, as a %) of this subject's extensors.
67.0
Your subject has a hemoglobin concentration of 13.9 g/dL, an SaO2 of 99%, a VO2 of 1.8 cardiac output of 12.8, a heart rate of 146, and a blood pressure of 163/80. What is their total peripheral resistance? (no units required)
673
What is a typical maximal aerobic exercise DBP for a young, healthy, adult subject?
68
Your subject is a 185 pound male subject who is 26.9 % body fat. You recently measured his VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. His resting VO2 was 0.41 L/min, exercising RER was 0.89, and exercise VO2 was 1.8. If he wanted to be 16.9 % body fat, how many weeks would it take to get to this percent body fat if he wished to lose one pound per week?
22.3
Your subject is a 151.1 pound female subject who is 69 inches tall, is 22.2 % body fat. You recently measured her VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. Her resting VO2 was 0.24 L/min, exercising RER was 0.88, and exercise VO2 was 2.2. What is her BMI? (no units required)
22.4
In lab we collected data related to force-velocity and power-velocity relationships. One such set of data is presented graphically below. High speed resistance training would increase which concentric data point the most?
O
Your subject is a 183.0 pound male subject who is 75 inches tall, is 27.0 % body fat. You recently measured his VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. His resting VO2 was 0.41 L/min, exercising RER was 0.88, and exercise VO2 was 2.4. What is his BMI? (no units required)
22.9
Your subject is a 172 pound male subject who is 26.4 % body fat. You recently measured his VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. His resting VO2 was 0.33 L/min, his exercising RER was 0.98, and his exercise VO2 was 2.7. If he wanted to lose a half pound of fat per week through exercise alone and planned to exercise 7 days per week, how many minutes per day would she have to exercise to achieve this weight loss? No units required
21
On EKG # 27 in your EKG packet, what is the subject's mean electrical axis (in degrees)? (no units required)
-60
Which of the following is a reasonable number for resting FECO2 in a recreationally fit female subject?
.03
On EKG 30 in your packet, what is your subject's QRS interval in box C?
.12
On EKG 17 in your packet, what is your subject's QRS interval in box A?
.15
On EKG 16 in your packet, what is your subject's QRS interval in box B?
.16
On EKG 6 in your packet, what is your subject's PR interval in box A?
.18
On EKG 13 in your packet, what is your subject's PR interval in box B?
.28
On EKG 21 in your packet, what is your subject's PR interval in box C?
.32
On EKG 2 in your packet, what is your subject's corrected QT interval in box A?
.36
On EKG 11 in your packet, what is your subject's QT interval in box B?
.38
On EKG 14A in your packet, what is your subject's corrected QT interval in box A?
.38
On EKG 1 in your packet, what is your subject's corrected QT interval in box A?
.4
Your subject has a hemoglobin concentration of 15.8, an SaO2 of 99 VO2 of 1.7 cardiac output of 13.5, a heart rate of 145, and a blood pressure of 143/71. What is their arterial O2 content? (must include units )
21.7
Your subject is a 127.6 pound female subject who is 64 inches tall, is 27.1 % body fat. You recently measured her VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. Her resting VO2 was 0.40 L/min, exercising RER was 0.86, and exercise VO2 was 2.2. What is her BMI? (no units required)
21.9
Your subject has a cardiac output of 13, a heart rate of 133, and a blood pressure of 163/68. Estimate their heart's oxygen demand. (do not need units)
21679
21 year old female who smokes socially on weekends (~10-20 cigarettes). Drinks alcohol one or two nights a week, usually on weekends. Height = 63 in (160 cm), weight = 124 lb (56.4 kg),. BMI = 22.0 kg/m2 RHR = 76 beats· min-1, resting BP= 118/72 mm Hg. Total cholesterol = 178 mg/dL (4.61 mmol · L-1), 1DL-C = 98 mg ·· dL-1 (2.54 mmol · L-1), HDL-C = 62 mg ·· dL-1 (1.60 mmol · L-1), FBG = 96 mg· d.1 -l (5.33 mmol ·1 -l)_ Currently taking oral contraceptives. Attends group exercise class two to three times a week. Both parents living and in good healih. How many risk factors does this subject have?
0
The following graph depicts the response of a physiological variable to a VO2max test - starting at rest and finishing at maximal exercise. Typical ranges are also provided on the Y-axis. This graph best depicts what variable's response during a VO2max test?
*down, plateau, then rise* VE/VO2
In lab VI we used a three site skinfold protocol and calculation to determine percent body fat. On female subjects we tested anterior thigh, triceps, and one other location. On the figure below, click where we took our third skinfold measurement.
*suprailiac
In lab VI we used a three site skinfold protocol and calculation to determine percent body fat. On male subjects we tested anterior thigh, umbilicus, and one other location. On the figure below, click where we took our third skinfold measurement.
*upper left chest - under arm* Top Left Coordinates(59, 159)Bottom Right Coordinates(79, 185)
On EKG # 26 in your EKG packet, what is the subject's mean electrical axis (in degrees)? (no units required)
-30
On EKG # 28 in your EKG packet, what is the subject's mean electrical axis (in degrees)? (no units required)
-45
Your subject is a 172 pound female subject who is 31.1 % body fat. You recently measured her VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. Her resting VO2 was 0.33 L/min, her exercising RER was 0.84, and her exercise VO2 was 1.6. How many pounds would she need to lose if she wanted to be 19.7 % body fat?
24.4
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 34 minutes. Her resting VO2 was 0.26 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 1.72 L/min, and her her exercise RER was 0.92, how many kcals of energy did she expend during this exercise bout? no units required
245.6
What is a typical maximal exercise cardiac output in an untrained subject? (use L)
25
Calculate the ventilation equivalent ratio for carbon dioxide (report final answer with 1 decimal place, no units required). Subject Weight = 157 lb female BTPS Correction Factor = 1.097 Heartrate = 161 b/m Subject age = 22 years of age STPD Correction Factor = 0.8935 Resp Rate = 31 br/min Ambient pressure = 750 mmHg Ve-ATPS = 52.7 L/min RPE = 13 Ambient temperature = 21 celcius FEO2 = 16.2 % Nitrogen Factor = 1.003 PH20@ 21 celcius FECO2 = 3.89 %
25.7
Your subject is a 161 pound male subject who is 20.3 % body fat. You recently measured his VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. His resting VO2 was 0.29 L/min, exercising RER was 0.80, and exercise VO2 was 1.8. If he wanted to be 13.4 % body fat, how many weeks would it take to get to this percent body fat if he wished to lose a half pound per week?
25.7
Your subject is a 177.6 pound male subject who is 69 inches tall, is 20.1 % body fat. You recently measured his VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. His resting VO2 was 0.35 L/min, exercising RER was 0.94, and exercise VO2 was 1.9. What is his BMI? (no units required)
26.3
Your subject is a 142 pound female subject who is 27.8 % body fat. You recently measured her VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. Her resting VO2 was 0.20 L/min, her exercising RER was 0.72, and her exercise VO2 was 2.2. if she wanted to lose a half pound of fat per week through exercise alone and planned to exercise 7 days per week, how many minutes per day would she have to exercise to achieve this weight loss? No units required
26.6
Your subject is a 160 pound female subject who is 33.6 % body fat. You recently measured her VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. Her resting VO2 was 0.33 L/min, her exercising RER was 0.79, and her exercise VO2 was 2.0. If she wanted to be 20.3 % body fat, how many weeks would it take to get to this percent body fat if she wished to lose one pound per week?
26.7
Your subject is a 162.0 pound female subject who is 65 inches tall, is 29.8 % body fat. You recently measured her VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. Her resting VO2 was 0.33 L/min, exercising RER was 0.83, and exercise VO2 was 2.4. What is her BMI? (no units required)
27.0
Your subject is a 145.8 pound female subject who is 61 inches tall, is 20.9 % body fat. You recently measured her VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. Her resting VO2 was 0.36 L/min, exercising RER was 0.93, and exercise VO2 was 2.6. What is her BMI? (no units required)
27.6
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 30 minutes. Her resting VO2 was 0.34 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 2.21 L/min, and her her exercise RER was 0.97, how many kcals of fat did she expend during this exercise bout? no units required
28.7
How much power is produced when performing a squat, your subject moved a/n 161 pound weight a distance of 0.36 meters in 0.90 seconds. No units required
286.9
Your subject is a 174 pound male subject who is 29.5 % body fat. You recently measured his VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. His resting VO2 was 0.24 L/min, exercising RER was 0.85, and exercise VO2 was 2.1. If he wanted to be 15.3 % body fat, how many weeks would it take to get to this percent body fat if he wished to lose one pound per week?
29.2
Your subject is a 181 pound male subject who is 26.3 % body fat. You recently measured his VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. His resting VO2 was 0.28 L/min, his exercising RER was 0.89, and his exercise VO2 was 2.0. If he wanted to lose a half pound of fat per week through exercise alone and planned to exercise 7 days per week, how many minutes per day would she have to exercise to achieve this weight loss? No units required
29.6
Your subject is a a 22 year old female who weighs 56.9 kg. During a recent VO2max test you determined that her VO2max as 48.7 ml/kg.min, her max power was 239, and her HR max was 189. If you wanted to determine her accumulated oxygen deficit, what would be an appropriate power for her supramaximal part of his accumulated O2 deficit test? no units required
299
Man, age 44 yr,. nonsmoker. Height = 70 in (177 .8 cm), weight= 216 lb (98.2 kg), BMI = 31.0 kg · m -2 _ RHR = 62 beats·min-1, resting BP= 128/84 mm Hg. Total serum cholesterol= 184 mg· dL-1 (4.77 mmol · 1-1), 1DL-C = 106 mg·· dL-1 (2.75 mmol · L-1), HDL-C = 44 mg· dL-1 (1.14 mmol · L-1), FBG = 130 mg· d.L-1 (7.22 mmol · L -l)_ Reports that he does not have time to exercise. Father had Type 2 diabetes and died at age 67 yr of a heart attack mother living, no CVD. No medications. How many risk factors does this subject have?
3
You collected this data from a college aged male who weighed 81.0 kg prior to doing his supramaximal test for determining his accumulated O2 deficit. What is this subject's required absolute VO2 for their supramaximal test? (calculate to 2 decimal places, no units required) Submax test Intensity VO2 92 W 1.42 L/min 129 W 1.81 L/min supramaximal test performed at 290 W min VO2 1 2.54 L/min 2 3.18 L/min 3 3.99 L/min 4 3.98 L/min
3.47
What is the subject's absolute VO2 (report final answer with 2 decimals, no units required)? Subject Weight = 157 lb female BTPS Correction Factor = 1.098 Heartrate = 161 b/m Subject age = 22 years of age STPD Correction Factor = 0.928 Resp Rate = 31 br/min Ve-ATPS = 91.0 L/min RPE = 13 FEO2 = 16.79 % Nitrogen Factor = 1.003
3.5
Which of the following is a reasonable number for absolute VO2 at 290W for a college aged female subject who is a 60kg well trained, competitive cyclist?
3.5
You collected this data from a college aged female who weighed 64.1 kg prior to doing her supramaximal test for determining her accumulated O2 deficit. What is this subject's absolute VO2 required for her supramaximal test? (calculate to 2 decimal places, no units required) Submax test Intensity VO2 100 W 1.47 L/min 149 W 2.03 L/min supramaximal test performed at 279 W min VO2 1 2.21 L/min 2 2.73 L/min 3 3.30 L/min 4 3.30 L/min
3.52
From the data set below, what is this subject's EPOC? (no units required) 12345678 minute Rest0.260.320.360.300.31 Exercise1.151.611.932.252.182.262.302.26 Post 1.351.130.950.830.680.500.340.31
3.59
Your subject is a 160 pound female exercising in a 19.2 C lab. Her HR is 153 bpm, her blood lactate is 2.8 mM, her VO2 is 2.58 L/min, her RER is 0.85, her core temperature is 37.2 C, her average skin temperature is 33.5 C , and her resting VO2 was 0.31 L/min. What is her thermal gradient. No units required.
3.7
What is the subject's absolute VO2 (report final answer with 2 decimals, no units required)? Subject Weight = 157 lb female BTPS Correction Factor = 1.101 Heartrate = 161 b/m Subject age = 22 years of age STPD Correction Factor = 0.908 Resp Rate = 31 br/min Ve-ATPS = 89.0 L/min RPE = 13 FEO2 = 16.21 % Nitrogen Factor = 1.003
3.83
You collected this data from a college aged female who weighed 64.7 kg prior to doing her supramaximal test for determining her accumulated O2 deficit. What is this subject's absolute VO2 required for her supramaximal test? (calculate to 2 decimal places, no units required) Submax test Intensity VO2 98 W 1.41 L/min 148 W 2.05 L/min supramaximal test performed at 276 W min VO2 1 2.22 L/min 2 2.71 L/min 3 3.32 L/min 4 3.31 L/min
3.86
Which of the following is an appropriate value for maximal exercise TPR in (dyn/s.cm5) a young, untrained, healthy subject with a normal blood pressure response to exercise?
300
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 42 minutes. Her resting VO2 was 0.32 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 1.76 L/min, and her her exercise RER was 0.96, how many kcals of energy did she expend during this exercise bout? no units required
302.3
Your subject is a 202 pound male subject who is 29.3 % body fat. You recently measured his VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. His resting VO2 was 0.32 L/min, his exercising RER was 0.98, and his exercise VO2 was 1.9. If he wanted to lose a half pound of fat per week through exercise alone and planned to exercise 7 days per week, how many minutes per day would she have to exercise to achieve this weight loss? No units required
31.5
Your subject is a 170.3 pound female subject who is 61 inches tall, is 20.8 % body fat. You recently measured her VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. Her resting VO2 was 0.33 L/min, exercising RER was 0.88, and exercise VO2 was 2.4. What is her BMI? (no units required)
32.2
Your subject is a 194 pound male subject who is 29.1 % body fat. You recently measured his VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. His resting VO2 was 0.45 L/min, exercising RER was 0.75, and exercise VO2 was 2.1. How many pounds would she need to lose if she wanted to be 14.9 % body fat?
32.4
Calculate the ventilation equivalent ratio for carbon dioxide (report final answer with 1 decimal place, no units required). Subject Weight = 157 lb female BTPS Correction Factor = 1.097 Heartrate = 161 b/m Subject age = 22 years of age STPD Correction Factor = 0.8935 Resp Rate = 31 br/min Ambient pressure = 750 mmHg Ve-ATPS = 79.4 L/min RPE = 13 Ambient temperature = 21 celcius FEO2 = 16.2 % Nitrogen Factor = 1.003 PH20@ 21 celcius FECO2 = 3.05 %
32.8
Your subject has a cardiac output of 14, a heart rate of 178, and a blood pressure of 181/64. Estimate their heart's oxygen demand. (do not need units)
32218
Your subject is a a 23 year old female who weighs 61.5 kg. During a recent VO2max test you determined that her VO2max as 43.6 ml/kg.min, her max power was 259, and her HR max was 199. If you wanted to determine her accumulated oxygen deficit, what would be an appropriate power for her supramaximal part of his accumulated O2 deficit test? no units required
324
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 51 minutes. Her resting VO2 was 0.29 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 1.58 L/min, and her her exercise RER was 0.92, how many kcals of energy did she expend during this exercise bout? no units required
325.5
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 44 minutes. Her resting VO2 was 0.24 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 1.74 L/min, and her her exercise RER was 0.92, how many kcals of energy did she expend during this exercise bout? no units required
326.6
You collected this data from a college aged male who weighed 83.3 kg prior to doing his supramaximal test for determining his accumulated O2 deficit. What is this subject's accumulated O2 deficit? (calculate to 2 decimal places, no units required) Submax test Intensity VO2 88 W 1.36 L/min 122 W 1.74 L/min supramaximal test performed at 323 W min VO2 1 2.65 L/min 2 3.23 L/min 3 3.75 L/min 4 3.74 L/min
33.25
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 47 minutes. Her resting VO2 was 0.29 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 1.78 L/min, and her her exercise RER was 0.83, how many kcals of energy did she expend during this exercise bout? no units required
338.8
Your subject is a 42 year old female who lasted 10 minutes on the Bruce protocol during her stress test. What is her approximate relative VO2max?
34
Your subject is a 164 pound male subject who is 27.4 % body fat. You recently measured his VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. His resting VO2 was 0.32 L/min, his exercising RER was 0.89, and his exercise VO2 was 1.8. If he wanted to lose a half pound of fat per week through exercise alone and planned to exercise 7 days per week, how many minutes per day would she have to exercise to achieve this weight loss? No units required
34.4
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 48 minutes. Her resting VO2 was 0.33 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 1.88 L/min, and her her exercise RER was 0.71, how many kcals of fat did she expend during this exercise bout? no units required
345.4
The average VO2max of an average college aged female is __________ ml/kg.min (provide a single number, no decimal places)
35
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 46 minutes. Her resting VO2 was 0.26 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 1.80 L/min, and her her exercise RER was 0.96, how many kcals of energy did she expend during this exercise bout? no units required
354.1
Your subject is a 203 pound male subject who is 22.3 % body fat. You recently measured his VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. His resting VO2 was 0.33 L/min, exercising RER was 0.88, and exercise VO2 was 1.9. If he wanted to be 14.7 % body fat, how many weeks would it take to get to this percent body fat if he wished to lose a half pound per week?
36.2
Calculate relative VO2 from the following data (report final answer with 1 decimals, no units required). Subject Weight = 165 lb female BTPS Correction Factor = 1.097 Heartrate = 161 b/m Subject age = 22 years of age STPD Correction Factor = 0.8935 Resp Rate = 31 br/min Ambient pressure = 750 mmHg Ve-ATPS = 63.2 L/min RPE = 13 Ambient temperature = 21 celcius FEO2 = 16.1% Nitrogen Factor = 1.003 PH20@ 21 celcius FECO2 = 4.6%
36.8
Your subject is an 22 year old female who weighs 148 lbs. You previously determined that her maximal voluntary contraction force was 35 lbs and her iEMG integral during the MVC was 0.000134. During lab today you had her hold a 16 pound weight isometrically for a few seconds and her integral during this lift was 0.000051. What is her normalized iEMG activity for this lift?
38.1
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 54 minutes. Her resting VO2 was 0.26 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 1.69 L/min, and her her exercise RER was 0.92, how many kcals of energy did she expend during this exercise bout? no units required
382.1
Your subject is a a 22 year old male who weighs 67.8 kg. During a recent VO2max test you determined that his VO2max as 48.8 ml/kg.min, his max power was 311, and his HR max was 190. If you wanted to determine his accumulated oxygen deficit, what would be an appropriate power for his supramaximal part of his accumulated O2 deficit test? no units required
389
Your subject is an 23 year old male who weighs 203 lbs. You previously determined that his maximal voluntary contraction force was 47 lbs and his iEMG integral during the MVC was 0.000133. During lab today you had him hold a 10 pound weight isometrically for a few seconds and his integral during this lift was 0.000052. What is his normalized iEMG activity for this lift?
39.1
How many millimeters of ST segment depression are there on the EKG tracing below? Select the best answer and be sure to take measurements at the right location
3MM
There is evidence of which of the following rhythms/arrhythmias on EKG 7 in your packet? select all that apply
3rd degree AV block
Your subject is a 130 pound female exercising in a 20.4 C lab. Her HR is 110 bpm, her blood lactate is 1.5 mM, her VO2 is 1.28 L/min, her RER is 0.82, her core temperature is 38.5 C, her average skin temperature is 34.2 C , and her resting VO2 was 0.21 L/min. What is her thermal gradient. No units required.
4.3
Your subject is a 165 pound male exercising in a 20.1 C lab. His HR is 140 bpm, his blood lactate is 1.3 mM, his VO2 is 2.25 L/min, his RER is 0.85, his core temperature is 38.4 C, his average skin temperature is 33.7 C , and his resting VO2 was 0.29 L/min. What is his thermal gradient. No units required.
4.7
HDL concentration less than ____is associated with increased CAD risk (no units required)
40
Your subject is a 208 pound male subject who is 23.8 % body fat. You recently measured his VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. His resting VO2 was 0.31 L/min, exercising RER was 0.81, and exercise VO2 was 2.0. If he wanted to be 15.6 % body fat, how many weeks would it take to get to this percent body fat if he wished to lose a half pound per week?
40.4
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 50 minutes. Her resting VO2 was 0.24 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 1.94 L/min, and her her exercise RER was 0.76, how many kcals of energy did she expend during this exercise bout? no units required
403.8
Your subject is a 51 year old male who lasted 11 minutes on the Bruce protocol during his stress test. What is his approximate relative VO2max?
41
Calculate relative VO2 from the following data (report final answer with 1 decimals, no units required). Subject Weight = 155 lb female BTPS Correction Factor = 1.097 Heartrate = 161 b/m Subject age = 22 years of age STPD Correction Factor = 0.8935 Resp Rate = 31 br/min Ambient pressure = 750 mmHg Ve-ATPS = 68.5 L/min RPE = 13 Ambient temperature = 21 celcius FEO2 = 16.1% Nitrogen Factor = 1.003 PH20@ 21 celcius FECO2 = 4.6%
42.5
Your subject is a 200 pound male subject who is 22.7 % body fat. You recently measured his VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. His resting VO2 was 0.36 L/min, exercising RER was 0.82, and exercise VO2 was 2.2. If he wanted to be 13.3 % body fat, how many weeks would it take to get to this percent body fat if he wished to lose a half pound per week?
43.4
Your subject, Angela Martin, is a 35 year old accountant at a paper company in Scranton, PA. She weighs 55.7 kg. You collected the following data from her during his Wingate test. The average wattage from her test was 432 Watts. What is her absolute anaerobic capacity?
432.0
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 55 minutes. Her resting VO2 was 0.24 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 1.92 L/min, and her her exercise RER was 0.76, how many kcals of energy did she expend during this exercise bout? no units required
439.0
On EKG 8, what is this subject's HR in box A?
44
Men over the age of ____ are at increased risk of developing coronary artery disease. (no units required)
45
On EKG 7, what is this subject's HR in box A?
45
On EKG 7, what is this subject's HR in box B?
45
The average VO2max of an average college aged male is __________ ml/kg.min (provide a single number, no decimal places)
45
What is the subject's alveolar ventilation (report final answer with 1 decimal place, no units required)? Subject Weight = 157 lb female BTPS Correction Factor = 1.093 Heartrate = 161 b/m Subject age = 22 years of age STPD Correction Factor = 0.893 Resp Rate = 28 br/min Ambient pressure = ___ mmHg Ve-ATPS = 45.3 L/min RPE = 13 Ambient temperature = ___celcius FEO2 = 17.3 % Nitrogen Factor = 1.003 PH20@ 21 celcius = ____ mmHg FECO2 = 4.6%
45.3
You collected this data from a college aged male who weighed 76.4 kg prior to doing his supramaximal test for determining his accumulated O2 deficit. What is this subject's accumulated O2 deficit? (calculate to 2 decimal places, no units required) Submax test Intensity VO2 50 W 1.08 L/min 100 W 1.64 L/min supramaximal test performed at 249 W min VO2 1 1.76 L/min 2 2.17 L/min 3 2.69 L/min 4 2.58 L/min
45.99
Your subject is an 20 year old male who weighs 162 lbs. You previously determined that his maximal voluntary contraction force was 34 lbs and his iEMG integral during the MVC was 0.000105. During lab today you had him hold a 11 pound weight isometrically for a few seconds and his integral during this lift was 0.000071. What is his normalized iEMG activity for this lift?
68
Calculate relative VO2 from the following data (report final answer with 1 decimals, no units required). Subject Weight = 154 lb female BTPS Correction Factor = 1.097 Heartrate = 161 b/m Subject age = 22 years of age STPD Correction Factor = 0.8935 Resp Rate = 31 br/min Ambient pressure = 750 mmHg Ve-ATPS = 78.5 L/min RPE = 13 Ambient temperature = 21 celcius FEO2 = 16.1% Nitrogen Factor = 1.003 PH20@ 21 celcius FECO2 = 4.6%
49
Your subject is a 202 pound male subject who is 19.3 % body fat. You recently measured his VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. His resting VO2 was 0.31 L/min, his exercising RER was 0.83, and his exercise VO2 was 2.4. If he wanted to lose 1 pound of fat per week through exercise alone and planned to exercise 7 days per week, how many minutes per day would she have to exercise to achieve this weight loss? No units required
49.4
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 69 minutes. Her resting VO2 was 0.29 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 1.77 L/min, and her her exercise RER was 0.99, how many kcals of carbohydrates did she expend during this exercise bout? no units required
496.7
From the data set below, what is this subject's EPOC? (no units required) 12345678 minute Rest0.360.420.460.400.41 Exercise2.032.653.003.123.053.133.173.13 Post 1.871.561.311.150.940.690.470.41
5.12
From the data set below, what is this subject's EPOC? (no units required) 12345678 minute Rest0.170.230.270.210.22 Exercise1.341.882.252.642.572.652.692.65 Post 1.581.321.110.980.790.580.400.22
5.22
Your subject is a 160 pound male exercising in a 22.0 C lab. His HR is 147 bpm, his blood lactate is 2.6 mM, his VO2 is 2.57 L/min, his RER is 0.78, his core temperature is 38.3 C, his average skin temperature is 32.7 C , and his resting VO2 was 0.31 L/min. What is his thermal gradient. No units required.
5.6
Your subject is a 206 pound male subject who is exercising on a treadmill. His VO2 is 1.9 L/min and his RER is 0.80. His resting VO2 was 0.44 L/min. How many METs is he exercising at? (no units required, calculate to the nearest tenth)
5.8
Using the 3 second markers on EKG 14 in your packet, what is this subject's heart rate?
50
Minutes per day
500kcal a day / energy expended OR 1/2 lb/wk = %250 kcal
Your subject is an 22 year old female who weighs 144 lbs. You previously determined that her maximal voluntary contraction force was 36 lbs and her iEMG integral during the MVC was 0.000122. During lab today you had her hold a 13 pound weight isometrically for a few seconds and her integral during this lift was 0.000063. What is her normalized iEMG activity for this lift?
51.6
Your subject has a hemoglobin concentration of 13.9 g/dL, an SaO2 of 99%, a VO2 of 1.9 cardiac output of 14.7, a heart rate of 148, and a blood pressure of 153/67. What is their total peripheral resistance? (no units required)
520.6
Your subject is a 51 year old male who lasted 15 minutes on the Bruce protocol during his stress test. What is his approximate relative VO2max?
53
Women over the age of ____ are at increased risk of developing coronary artery disease. (no units required)
55
Your subject has a hemoglobin concentration of 15.2, an SaO2 of 98 VO2 of 1.6 cardiac output of 12.1, a heart rate of 144, an end ejection fraction of 60 and a blood pressure of 163/77. What is their end systolic volume in ml? (must include units of ml)
56
According to the current American College of Sports Medicine (ACSM) Guidelines for Exercise Testing and Prescription (i.g. the handout we used), diastolic blood pressure greater than ____is associated with decreased CAD risk (no units required)
90
You collected this data from a college aged female who weighed 63.8 kg prior to doing her supramaximal test for determining her accumulated O2 deficit. What is this subject's accumulated O2 deficit? (calculate to 2 decimal places, no units required) Submax test Intensity VO2 101 W 1.42 L/min 150 W 2.03 L/min supramaximal test performed at 280 W min VO2 1 2.21 L/min 2 2.78 L/min 3 3.33 L/min 4 3.31 L/min
56.65
On EKG 9, what is this subject's HR in box A?
58
Your subject is a 32 year old beat farmer named Dwight Shroot. He weighs 88.0 kg. you collected the following data from him during his Wingate test. The average wattage from his test was 595 Watts. What is his absolute anaerobic capacity? (no units required)
595.0
Your subject is a 139 pound male exercising in a 20.7 C lab. His HR is 129 bpm, his blood lactate is 1.7 mM, his VO2 is 1.48 L/min, his RER is 0.80, his core temperature is 38.4 C, his average skin temperature is 32.1 C , and his resting VO2 was 0.36 L/min. What is his thermal gradient. No units required.
6.3
hemoglobin A1c greater than ____is associated with increased CAD risk (no units required)
6.5
Your subject is a 195 pound male subject who is exercising on a treadmill. His VO2 is 2.1 L/min and his RER is 0.77. This subject is exercising at how many times their resting metabolic rate? (no units required, calculate to the nearest tenth)
6.8
On EKG 2, what is this subject's HR in box A?
60
Your subject is a 30 year who is a receptionist, artist, and mom. She weighs 63.3 kg. You collected the following data from her during his Wingate test. The average wattage from her test was 485 Watts. What is her fatigue index?
60.6
Your subject is a 32 year old beat farmer named Dwight Shroot. He weighs 88.9 kg. you collected the following data from him during his Wingate test. The average wattage from his test was 600 Watts. What is his absolute anaerobic capacity? (no units required)
600.0
Your subject is an 25 year old female who weighs 189 lbs. You previously determined that her maximal voluntary contraction force was 33 lbs and her iEMG integral during the MVC was 0.000249. During lab today you had her hold a 12 pound weight isometrically for a few seconds and her integral during this lift was 0.000152. What is her normalized iEMG activity for this lift?
61
On EKG 1, what is this subject's HR in box A?
63
Below you can find data from your subject's Thorstenson test. Calculate the fatigue index (FI, as a %) of this subject's flexors.
63.2
Calculate Ventilation in the appropriate gas conditions (report final answer to one decimal place, no units required): Subject Weight = 157 lb female BTPS Correction Factor = 1.082 Heartrate = 161 b/m Subject age = 22 years of age STPD Correction Factor = 0.8935 Resp Rate = 31 br/min Ambient pressure = 750 mmHg Ve-ATPS = 58.9 L/min RPE = 13 Ambient temperature = 21 celcius FEO2 = 16.1% Nitrogen Factor = 1.003 PH20@ 21 celcius FECO2 = 4.6%
63.7
Calculate Ventilation in the appropriate gas conditions (report final answer to one decimal place, no units required): Subject Weight = 157 lb female BTPS Correction Factor = 1.082 Heartrate = 161 b/m Subject age = 22 years of age STPD Correction Factor = 0.8935 Resp Rate = 31 br/min Ambient pressure = 750 mmHg Ve-ATPS = 58.9 L/min RPE = 13 Ambient temperature = 21 celcius FEO2 = 16.1% Nitrogen Factor = 1.003 PH20@ 21 celcius FECO2 = 4.6%
63.7
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 28 minutes. Her resting VO2 was 0.34 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 2.02 L/min, and her her exercise RER was 0.79, how many kcals of carbohydrates did she expend during this exercise bout? no units required
63.7
Your subject is a 30 year who is a receptionist, artist, and mom. She weighs 65.8 kg. You collected the following data from her during his Wingate test. The average wattage from her test was 483 Watts. What is her absolute maximal anaerobic power?
643.6
mother (or other fmale first degree relative; e.g. sister) having a myocardial infarction, revascularization surgery, or sudden death priort to the age of ____ are at increased risk of developing coronary artery disease. (no units required)
65
Below you can find data from your subject's Thorstenson test. Calculate the fatigue index (FI, as a %) of this subject's flexors. extensorsflexorsavg power219.5135peak power264.4155total work1345756work first third462304work second third402256work last 393200
65.8
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 56 minutes. Her resting VO2 was 0.32 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 2.07 L/min, and her her exercise RER was 0.75, how many kcals of carbohydrates did she expend during this exercise bout? no units required
68.3
Below you can find data from your subject's Thorstenson test. Calculate the fatigue index (FI, as a %) of this subject's flexors.
69.7
Your subject is a 165 pound male subject who is exercising on a treadmill. His VO2 is 1.9 L/min and his RER is 0.83. His resting VO2 was 0.43 L/min. How many METs is he exercising at? (no units required, calculate to the nearest tenth)
7.2
Your subject is a 32 year old beat farmer named Dwight Shroot. He weighs 79.1 kg. you collected the following data from him during his Wingate test. The average wattage from his test was 618 Watts. What is his relative anaerobic capacity? (no units required)
7.8
You are taking a subject's blood pressure by the auscultatory method. When you have worked with this patient before, their blood pressure is usually around 118/74. You pump the cuff up until the pressure is 147 mmHg. You then release the pressure from the cuff, while listening for changes in sound as the pressure in the cuff gradually becomes lower. The needle on the sphygmomanometer is moving down and is at 112 mmHg when you hear a relatively loud sound, then it becomes a little softer at around 104, then a little louder again around 91, becomes muffled around 80, and then disappears at 70 mmHg. Based on this information what is their diastolic blood pressure?
70
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 59 minutes. Her resting VO2 was 0.28 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 1.99 L/min, and her her exercise RER was 0.75, how many kcals of carbohydrates did she expend during this exercise bout? no units required
70.3
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 24 minutes. Her resting VO2 was 0.20 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 2.39 L/min, and her her exercise RER was 0.92, how many kcals of fat did she expend during this exercise bout? no units required
71.0
Your subject has a hemoglobin concentration of 13.9 g/dL, an SaO2 of 99%, a VO2 of 1.8 cardiac output of 13.7, a heart rate of 149, and a blood pressure of 176/95. What is their total peripheral resistance? (no units required)
712.4
You are taking a subject's blood pressure by the auscultatory method. When you have worked with this patient before, their blood pressure is usually around 118/74. You pump the cuff up until the pressure is 138 mmHg. You then release the pressure from the cuff, while listening for changes in sound as the pressure in the cuff gradually becomes lower. The needle on the sphygmomanometer is moving down and is at 115 mmHg when you hear a relatively loud sound, then it becomes a little softer at around 105, then a little louder again around 95, becomes muffled around 80, and then disappears at 72 mmHg. Based on this information what is their diastolic blood pressure?
72
What is the subject's alveolar ventilation (report final answer with 1 decimal place, no units required)? Subject Weight = 157 lb female BTPS Correction Factor = 1.081 Heartrate = 161 b/m Subject age = 22 years of age STPD Correction Factor = 0.896 Resp Rate = 26 br/min Ambient pressure = ___ mmHg Ve-ATPS = 71.3 L/min RPE = 13 Ambient temperature = ___celcius FEO2 = 17.0 % Nitrogen Factor = 1.003 PH20@ 21 celcius = ____ mmHg FECO2 = 4.6%
73.2
Below you can find data from your subject's Thorstenson test. Calculate the fatigue index (FI, as a %) of this subject's extensors.
74
Your subject has an a-vO2difference of 9.4 vols%, an RR interval of 0.37 sec, a stroke volume of 131 ml and an ejection fraction of 63.9 %, what is this subject's end systolic volume? calculate to 2 decimal places, no units required
74
On EKG # 8 in your EKG packet, what is the subject's mean electrical axis (in degrees)? (no units required)
90
Your subject is a college aged female who ran at a moderate intensity on a treadmill for 54 minutes. Her resting VO2 was 0.23 L/min, her resting VCO2 was 0.25 L/min, her exercise VO2 was 2.27 L/min, and her her exercise RER was 0.75, how many kcals of carbohydrates did she expend during this exercise bout? no units required
76.7
On EKG 11, what is this subject's HR in box B?
77
Your subject has an a-vO2difference of 11.7 vols%, an RR interval of 0.33 sec, and an end diastolic volume of 186.0 ml and an end systolic volume of 40 ml. What is this subject's Ejection fraction (as a %)? calculate to 1 decimal place, no units required
78.5
Calculate Ventilation in the appropriate gas conditions (report final answer to one decimal place, no units required): Subject Weight = 157 lb female BTPS Correction Factor = 1.080 Heartrate = 161 b/m Subject age = 22 years of age STPD Correction Factor = 0.8935 Resp Rate = 31 br/min Ambient pressure = 750 mmHg Ve-ATPS = 73.2 L/min RPE = 13 Ambient temperature = 21 celcius FEO2 = 16.1% Nitrogen Factor = 1.003 PH20@ 21 celcius FECO2 = 4.6%
79.1
Your subject is a 30 year paper salesman named Jim Halpert. He weighs 78.1 kg. you collected the following data from him during his Wingate test. The average wattage from his test was 564 Watts. What is his absolute maximal anaerobic power?
796.4
Your subject has a hemoglobin concentration of 15.4 g/dL, an SaO2 of 97%, a VO2 of 1.2 cardiac output of 14.4, a heart rate of 157, and a blood pressure of 155/72. What is theira-vO2difference? (no units required)
8.3
Your subject is a 128 pound female subject who is exercising on a treadmill. Her VO2 is 1.7 L/min and her RER is 0.78. This subject is exercising at how many times their resting metabolic rate? (no units required, calculate to the nearest tenth)
8.3
Your subject, Angela Martin, is a 35 year old accountant at a paper company in Scranton, PA. She weighs 54.1 kg. You collected the following data from her during his Wingate test. The average wattage from her test was 448 Watts. What is her relative anaerobic capacity?
8.3
Using the 3 second markers on EKG 3 in your packet, what is this subject's heart rate?
80
Your subject has a cardiac output of 12.1, a heart rate of 149, and a blood pressure of 150/78. What is their stroke volume in ml/beat? (no units required)
81
Your subject has a hemoglobin concentration of 15.7, an SaO2 of 97 VO2 of 1.4 cardiac output of 14.8, a heart rate of 138, an end ejection fraction of 57 and a blood pressure of 179/94. What is their end systolic volume in ml? (must include units of ml)
81
Your subject has a cardiac output of 12.0, a heart rate of 147, and a blood pressure of 170/92. What is their stroke volume in ml/beat? (no units required)
81.6
What is the subject's alveolar ventilation (report final answer with 1 decimal place, no units required)? Subject Weight = 157 lb female BTPS Correction Factor = 1.085 Heartrate = 161 b/m Subject age = 22 years of age STPD Correction Factor = 0.919 Resp Rate = 38 br/min Ambient pressure = ___ mmHg Ve-ATPS = 82.7 L/min RPE = 13 Ambient temperature = ___celcius FEO2 = 16.3 % Nitrogen Factor = 1.003 PH20@ 21 celcius = ____ mmHg FECO2 = 4.6%
84
Your subject is a 147 pound female subject who is 31.9 % body fat. You recently measured her VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. Her resting VO2 was 0.35 L/min, her exercising RER was 0.76, and her exercise VO2 was 1.6. if she wanted to lose 1 pound of fat per week through exercise alone and planned to exercise 7 days per week, how many minutes per day would she have to exercise to achieve this weight loss? No units required
84.2
Below you can find data from your subject's Thorstenson test. Calculate the fatigue index (FI, as a %) of this subject's extensors. extensorsflexorsavg power196.1113peak power262.4145total work1301693work first third475308work second third395252work last 404214
85.1
Calculate Ventilation in the appropriate gas conditions (report final answer to one decimal place, no units required): Subject Weight = 157 lb female BTPS Correction Factor = 1.055 Heartrate = 161 b/m Subject age = 22 years of age STPD Correction Factor = 0.8935 Resp Rate = 31 br/min Ambient pressure = 750 mmHg Ve-ATPS = 81.6 L/min RPE = 13 Ambient temperature = 21 celcius FEO2 = 16.1% Nitrogen Factor = 1.003 PH20@ 21 celcius FECO2 = 4.6%
86.1
if you were to feel the pulse of the subjects for EKGs 7-12, in which subject would you feel the most irregular rhythm? (not necessarily variable strength beats or skipped beats, but irregular)
9
Your subject has a hemoglobin concentration of 14.3, an SaO2 of 98 VO2 of 1.4 cardiac output of 13.4, a heart rate of 129, and a blood pressure of 179/85. What is their venous O2 content? (must include units )
9.0
Your subject is a 174 pound female subject who is exercising on a treadmill. Her VO2 is 2.6 L/min and her RER is 0.81. Her resting VO2 was 0.29 L/min. How many METs is she exercising at? (no units required, calculate to the nearest tenth)
9.4
Your subject is a 137 pound female subject who is 28 % body fat. You recently measured her VO2 and VCO2 during a moderate intensity exercise bout on a treadmill. Her resting VO2 was 0.34 L/min, her exercising RER was 0.93, and her exercise VO2 was 1.8. What is her lean body mass (LBM) in pounds? (no units required)
98.6
Which of the following is NOT an absolute contraindication for exercise testing (you should not start an exercise test)?
ALL are
relative max anaerobic power
Abs. Max Anaerobic Power/kg
Relative Max Anaerobic Power
Abs. Maximal Anaerobic Power/KG
Which of the following is/are NOT true about VO2max?
All of the above
Which of the following is NOT an absolute contraindication for exercise testing (you should not start an exercise test)?
All of these ARE contraindications to stress testing
Which of the following isokinetic actions would have the highest EMG integral?: Choices: knee extensors medium speed knee extensors slow speed they would all be about the same knee extensors slow speed
All the same
Which of the following would have the lowest EMG integral?
Answer options: isokinetic knee extension mid-extension (125-135 deg) isokinetic knee extension full extension (170-180deg) they would all be about the same isokinetic knee extension early extension (90-100deg) ANSWER: All the same
There is evidence of which of the following rhythms/arrhythmias on EKG 9 in your packet? select all that apply
Atrial fib
Absolute Maximal Anaerobic Power
Ave. highest 5 sec
Absolute max anaerobic power
Ave. highest 5 sec
considering rhythm strips A-E on page 31 of your packet, a patient experiencing angina pectoris would be most likely to be associated with eletrical activity presented in strip _______
B
considering rhythm strips A-E on page 31 of your packet, which strip has evidence of ST depression?
B
considering rhythm strips A-E on page 31 of your packet, which strip has evidence of a ischemia?
B
Which of the following images represent the appropriate trend in carbon dioxide production (L/min) during progressive exercise from light to heavy intensities?
B - Gradual increase
Match the ST segment descriptions with the EKG tracing that best matches.
B Horizontal ST segment depression C Normal ST segment D downsloping ST segment A upsloping ST segment
Which of the following images represent the appropriate trend in carbon dioxide production (L/min) during progressive exercise from light to heavy intensities?
B: Gradual increase
Which of the following images represent the appropriate trend in ventilation during progressive exercise from light to heavy intensities?
B; gradual increase
Click on the location exercise electrode placement for the positive electrode in AVF:
Bottom left rib
Click on the location exercise electrode placement for the positive electrode in limb lead III:
Bottom left rib
a constricting sensation in the chest during exercise would most likely be associated with which of the following:
CAD
stable angina pectoris would most likely be associated with which of the following:
CAD
The EMG data below was collected during a variety of activities from the abdominal muscles (abs) and from the rectus femoris (hip flexors). Which of the following exercises best activates the abdominal muscles?
Crunch
Relative Anaerobic Capacity:
Divide AAC by d
A 60-yr-old woman i beginning a professionally led walking program. Two years ago she had a drug-eluting stent placed in her left anterior descending coronary artery afterr a routine exercise stress test revealed significant ST segment depression. Sh completed a brief cardiac rehabilitation program in the 2 mo following the procedure but has been inactive since. She reports no signs or symptom and take a cholesterol lowering statin and antiplatelet medications as directed by her cardiologist. Select all that apply
Does not have signs or symptoms suggestive of disease has known cardiovascular, metabolic, or renal disease does not currently participate in regular exercise desired exercise intensity = moderate Needs to be medically cleared before performing desired activity
During the first phase of the hold-relax with agonist contraction procedure to try to increase the stretch of a muscle we make use of which of the following reflex phenomena?
During the first phase of the hold-relax with agonist contraction procedure to try to increase the stretch of a muscle we make use of which of the following reflex phenomena?
This immage depicts the SBP, DBP, and MAP response to exercise for the same subject during two different exercises (lines a-f): cycling and arm cranking. Which line is likely the arm crank DBP
E
Weight Loss calcuations:
FM = BM x %BF LBM: BM - FM Desired BW = Current LBM / (1-%des. BF)
considering rhythm strips F-J on page 31 of your packet, which strip has evidence of atrial fibrillation?
G
considering rhythm strips F-J on page 31 of your packet, which strip would be common in an older adult and would increase the risk of having a stroke?
G
Which of the following findings in a patient would be associated with reduced risk of developing a cardiovascular disease?
HDL 74
Poor strength of the vastus medialis relative to the vastus lateralis (the largest and strongest of the quadriceps muscles) can contribute to poor tracking of the patella during extension of the knee. This can result in patellofemoral pain. It would thus be very helpful to identify activities that are good at isolating the vastus medialis so that it can specifically be strengthened. The following data were recorded from a single subject's vastus lateralis (VL) and vastus medialis (VMO) muscles during the concentric phase of several exercises.Which of the following exercises best activates the VMO?
Heel drop off of stair
Central Fatigue
Higher brain centers and/or motor neurons Depletion of excitatory neurotransmitters in the motor cortex Reduced motor output to muscle Spinal cord Peripheral neurons
Which of the following fiber types would be most resistant to fatigue?
I
Which of the following fiber types would tend to have the greatest mitochondrial volume?
I
In lab we collected data related to force-velocity and power-velocity relationships. One such set of data is presented graphically below. Considering all labelled data points on this curve, which has the lowest potential for producing power?
L (on the isometric axis)
match the following variabless with the correct units/gas conditions
L/min STPD: abs vo2 ml/kg * min STPD: Rel vo2 L/breath BTPS: Tidal volume L/min BTPS: VE mL O2/Bt: O2 Pulse
match the following variabless with the correct units/gas conditions
L/min STPD: abs. vo2 ml/kg * min STPD: Rel VO2 L/Breath BTPS: Tidal vol L/min BTPS: VE mL O2bt: O2 pulse
match the following variabless with the correct units/gas conditions
L/min STPD: absolute VO2 ml/kg min STPD: relative VO2 L/breath BTPS: Tidal Volume L/min BTPS: VE ml O2/beat: O2 pulse
Some athletes are better at long events, some at short events, and some at intermediate distances. These different types of events require different physiological strengths (and permit certain weaknesses). Match the physiological test data with the best match for the different types of athletes below.
Large male 200m sprinter (best time 20.6s) b. VO2max 40.7 ml/kg.minLT at 49% of VO2maxAbsolute Maximum Anaerobic Power 1,296 WRelative Max Anaerobic Power 15.13 W/kgAccumulated O2 deficit 76 ml/kg Small Male 100m sprinter (best time 10.96s) e. VO2max 42.6 ml/kg.minLT at 42% of VO2maxAbsolute Maximum Anaerobic Power 1,032WRelative Max Anaerobic Power 15.9 W/kgAccumulated O2 deficit 70 ml/kg average sized male 1500m (middle distance) runner (best 1500m time 3:54.6 sec) a. VO2max 74.5 ml/kg.minLT at 81% of VO2maxAbsolute Maximum Anaerobic Power 698WRelative Max Anaerobic Power 10.2 W/kgAccumulated O2 deficit 74.4 ml/kg average sized male half marathoner (best time 1hr, 4 min, 36 sec) d. VO2max 81 ml/kg.minLT at 91% of VO2maxAbsolute Maximum Anaerobic Power 547 WRelative Max Anaerobic Power 8.13 W/kgAccumulated O2 deficit 49 ml/kg
Some athletes are better at long events, some at short events, and some at intermediate distances. These different types of events require different physiological strengths (and permit certain weaknesses). Match the physiological test data with the best match for the different types of athletes below.
Large male 200m sprinter (best time 20.6s) c. VO2max 40.7 ml/kg.minLT at 49% of VO2maxAbsolute Maximum Anaerobic Power 1,296 WRelative Max Anaerobic Power 15.13 W/kgAccumulated O2 deficit 76 ml/kg Small Male 100m sprinter (best time 10.96s) a. VO2max 42.6 ml/kg.minLT at 42% of VO2maxAbsolute Maximum Anaerobic Power 1,032WRelative Max Anaerobic Power 15.9 W/kgAccumulated O2 deficit 70 ml/kg average sized male 1500m (middle distance) runner (best 1500m time 3:54.6 sec) e. VO2max 74.5 ml/kg.minLT at 81% of VO2maxAbsolute Maximum Anaerobic Power 698WRelative Max Anaerobic Power 10.2 W/kgAccumulated O2 deficit 74.4 ml/kg average sized male half marathoner (best time 1hr, 4 min, 36 sec) d. VO2max 81 ml/kg.minLT at 91% of VO2maxAbsolute Maximum Anaerobic Power 547 WRelative Max Anaerobic Power 8.13 W/kgAccumulated O2 deficit 49 ml/kg
Match the parts of Einthoven's Triangle. Leads and Electrodes are indicated with capital letters (GHIJKL) and positive and negative ends of leads are indicated in lowercase letters (mnoprs).
Left Arm Electrode: H Left Leg Electrode: I Limb Lead I: J Limb Lead II: K negative end of limb lead II: N positive end of limb lead III: S
The following graph depicts the response of a physiological variable to a VO2max test - starting at rest and finishing at maximal exercise. Typical ranges are also provided on the Y-axis. This graph best depicts what variable's response during a VO2max test?
Linear increase, then slope: y-axis: 3.5, 25-75 Rel VO2 in females
Fatigue Index
Lowest 5 sec average divided by the highest 5 sec ave. x 100
In our recent lab we did experiments related to several aspects of muscle performance including force, velocity, power, and muscle length. Which of the following figures best depicts the active length tension curve?
M
In our recent lab we did experiments related to several aspects of muscle performance including force, velocity, power, and muscle length. Which of the following figures best depicts the length-total tension curve?
M
The torque curve on the far left was recorded from a muscle group during a single concentric isokinetic action. You then recorded the EMG of this same muscle group using free weights during a single concentric action. Which of the figures best depicts the EMG tracing we would observe for this muscle during this lift?
M
___________________________________ is when more motor units are recruited in order to produce more force.
MMUS
Force
Mass (kg) x Acceleration (9.8)
Click on the location exercise electrode placement for V4:
Median fifth rib
In lab we collected data related to force-velocity and power-velocity relationships. One such set of data is presented graphically below. Considering all Concentric data points on this curve, which likely has the greatest potentnial for producing power?
N
In lab we collected data related to force-velocity and power-velocity relationships. One such set of data is presented graphically below. Considering all labelled data points on this curve, which has the lowest potentnial for producing power?
N
In our recent lab we did experiments related to several aspects of muscle performance including force, velocity, power, and muscle length. Which of the following figures best depicts the passive length tension curve?
N
The EMG tracing on the far left was recorded from a muscle group during a single concentric action with free weights. You then tested this same muscle group on an isokinetic dynamometer. Which of the figures best depicts the torque curve we would observe for this muscle during this isokinetic action?
N
Which of the following EMG tracings best depicts the electrical activity of a muscle group that has its poorest leverage at 90 when using free weights?
N
A 50-yr-old nonsmoking male was recently invited by colleagues to participate in a 10-km trail run. He reports currently walking 40 min on Monday, Wednesday, and Friday — something he has done "for years." His goal is to run the entire race without stopping, and he is seeking training services. He reports having what he describes as a "mild heart attack" at 45 yr old, completed cardiac rehabilitation, and has had no problems since. He takes a statin (to lower his cholesterol), an angiotensin-converting enzyme (ACE) inhibitor (to lower his blood pressure), and aspirin (to reduce clot risk) daily. During the last visit with his cardiologist, which took place 2 yr ago, the cardiologist noted no changes in his medical condition. Select all that apply
Needs to be medically cleared before performing desired activity has known cardiovascular, metabolic, or renal disease desired exercise intensity = vigorous Does not have signs or symptoms suggestive of disease currently participates in regular exercise
Energy Expended Formula
Net VO2 x Caloric Equiv x min exercises
In lab we collected data related to force-velocity and power-velocity relationships. One such set of data is presented graphically below. Why does point O have a high value on this figure?
O is on the far left high up. power is high here because force increases as velocity increases with eccentric actions
Which of the following is/are true about O2pulse during a VO2max test?
O2 pulse would tend to plateau because SV tends to plateau for most subjects during a VO2max test.
Absolute anaerobic capacity
Overall power produced during 30 sec
Abs. Anaerobic Capacity
Overall power produced during 30sec
In lab we collected data related to force-velocity and power-velocity relationships. One such set of data is presented graphically below. Which point on this curve would probably be associated with the highest concentric forces?
P
In our recent lab we did experiments related to several aspects of muscle performance including force, velocity, power, and muscle length. Which of the following figures best depicts the force-velocity curve during concentric and eccentric actions?
P
In our recent lab we did experiments related to several aspects of muscle performance including force, velocity, power, and muscle length. Which of the following figures best depicts the length-active tension curve?
P
considering rhythm strips P-T on page 32 of your packet, which strip has evidence of an acute myocardial infarction?
P
____________________________________ is a symptom suggestive of cardiovascular disease where one has an unpleasant feeling that their heart is racing. This can be due to a variety of arrhythmias (tachycardia, bradycardia, or PVCs).
Palpitations
Which of the following is/are absolute contraindications to maximal exercise testing? Select all that apply
Patient with a third degree AV blockand low blood pressure Patient had myocardial infarction 36 hours ago
Which of the following is/are absolute reasons for terminating a maximal GXT?
Patient's P waves and QRS complexes no longer seem to correspond to one another and are following different rates (P waves about 115 bpm and QRS about 50 bpm) and their blood pressure is dropping and they report feeling lightheaded patient is starting to loose coordination. Their speach is slurred and they seem lightheaded and confused patient's EKG now has 1.2-1.6 mm of ST elevation in three of the precordial leads. Your patient asks to stop but you are sure they can last a little longer
What does the Vo2 slow component suggest about prescribing high intensity exercise as a percentage of VO2max?
Prescribing exercise as a percentage of VO2max may lead individuals to work too hard at high intensities as they may continuously drift towards VO2max. Therefore, exercise should be prescribed as a percentage of the person's Lactate Threshold to ensure steady state workloads can be prescribed.
Formulas and abbreviations
Q = cardiac output SV = stroke volume VR = venous return MAP = mean arterial pressure TPR = total peripheral resistance SaO2 = percent saturation of Hemoglobin with O2 Q = VR Q = SV x HR SV (ml/bt) = Q (ml/min) / HR (bt/min) MAP (mmHg) = (SYSTOLIC + (2 x DIASTOLIC)) / 3 or = 1/3PP + DBP TPR (dyn/sec.cm5) = (MAP x 1333) / Q ml/s where (Q L/m x 1000 / 60 = Q ml/s) TPR can then be estimated as: TPR = (MAP/Q) x 80 a-vO2 diff (ml/100ml or vols%) = VO2 (L/min) x 1000 (ml/L) / Q (L/min) x 10 (100ml/L) a-v O2diff can then be estimated as: a-vO2diff = (VO2/Q) x 100 O2pulse (ml O2/beat) = VO2 (ml/min)/ HR (bt/min) Arterial oxygen content = [g hemoglobin / 100ml blood] x 1.39ml/gHb x SaO2 Venous oxygen content = arterial oxygen content - a-vO2difference Rate Pressure Product = HR x SBP % ventricular systole = ventricular systole (sec) / RR interval (sec) % ventricular diastole = ventricular diastole (sec) / RR interval (sec)
Corrected QT
QT/sqrtRR
On EKG 30 of your EKG packet, in what quadrant is this subject's mean electrical axis?
RAD
Match the following variables/conditions below wtih the most appropriate number
RER Fats: 0.7 Resting abs. VO2 in female: 0.2 reasonable resting rel vo2 for male: 3.5 reasonable value for resting VE: 8 Reasonable moderate intensity rel vo2 for female: 24 typical value for BTPS correction factor in labs: 1.1 nitrogen factor is usually close to this: 1.0
The following set of data is from a VO2max test. Was this a Valid VO2max test? What validity criteria WERE met? (note: as a short answer question on exams you would be asked to write out all criteria that were and were not met and include important cutoff values)
RER criteria was met lactate criteria was met RPE criteria was met This WAS a valid test for determining VO2max because 3 of the 5 major criteria were met
What happens to RER during the course of a VO2max test and why? Select all that apply
RER might start a little high right at the beginning because of anticipatory hyperventilation prior to the start of the test (which results in blowing off extra CO2) beyond the ventilatory threshold we would expect RER to go up at a faster rate because extra CO2 is being blown off to help buffer the blood as the intensity increases we would expect RER to increase due to an increase in reliance on carbohydrates after starting a little high, RER would tend to be low in the early stages because fat use is greater at low intensities
Match the following variables/conditions below wtih the most appropriate number
RER when using exclusively fats
Match the following variables/conditions below wtih the most appropriate number
RER when using exclusively fats 0.7 resting absolute VO2 in a female subject 0.2 reasonable resting relative VO2 for a male subject 3.5 reasoable value for resting VE 8 reasonable moderate intensity relative VO2 for a female 24 typical value for BTPS correction factor in our labs 1.1 Nitrogen factor is usually very close to this number 1.0
Match the following variables/conditions below wtih the most appropriate number
RER when using exclusively fats: 0.7 resting absolute VO2 in a female subject: 0.2 reasonable resting relative VO2 for a male subject: 3.5 reasoable value for resting VE: 8 reasonable moderate intensity relative VO2 for a female subject: 24 typical value for BTPS correction factor in our labs: 1.1 Nitrogen factor is usually very close to this number: 1.0
Using the data below was this test a valid VO2max test? Why/Why not?. Select all that apply
RPE criteria was met RER criteria was met lactate criteria was met heart rate max criteria was met This WAS a valid test for determining VO2max
Which of the following would be most suggestive of afib?
RR interval highly variable ranging from 0.34 to 0.60 seconds PR interval indeterminable QRS interval 0.10 seconds every beat no p waves before QRS complexes
Which of the following would be most suggestive of a 2AV block?
RR interval variable ranging from 0.84 to 1.24 seconds PR interval progressively lengthening from 0.16 to 0.32 seconds QRS interval 0.10 seconds every beat P before each QRS QRS after most P waves some P waves not followed by QRS
Click on the location exercise electrode placement for the negative electrode in limb lead III:
Right portion of very bottom mediastinum
The torque curve on the far left was recorded from a muscle group during a single concentric isokinetic action. You then recorded the EMG of this same muscle group using free weights during a single concentric action. Which of the figures best depicts the EMG tracing we would observe for this muscle during this lift? (Upside down)
Right side up: M
considering rhythm strips P-T on page 32 of your packet, which strip has evidence of a ventricular fibrillation?
S
In our recent lab we did experiments related to several aspects of muscle performance including force, velocity, power, and muscle length. Which of the following figures best depicts the force-velocity curve during concentric and eccentric actions?
Sigmoidal curve: L
Poor strength of the vastus medialis relative to the vastus lateralis (the largest and strongest of the quadriceps muscles) can contribute to poor tracking of the patella during extension of the knee. This can result in patellofemoral pain. It would thus be very helpful to identify activities that are good at isolating the vastus medialis so that it can specifically be strengthened. The following data were recorded from a single subject's vastus lateralis (VL) and vastus medialis (VMO) muscles during the concentric phase of several exercises.Which of the following exercises best activates the VMO?
Single leg squat
Based on the following last data point during a VO2max treadmill test (image), which of the following statement is correct: Subject Sex: Male Subject age: 30 year Final RPE = 17 Blood Lactate = 7.4 mM
The individual would be considered trained, but not elite in status as determined by their relative VO2 value.
Which of the following statements are true regarding the VO2 slow component?
The largest portion of the VO2 slow component is contributed by factors within the active muscle.
The following immage depicts the changes in power during a Wingate test. Based on its appearance there is no evidence for which of the following types of fatigue?
There is no evidence for any of these
Using the data below was this test a valid VO2max test? Why/Why not?. Select all that apply
This WAS a valid test for determining VO2max RER criteria was met lactate criteria was met RPE criteria was met
In lab VI we used a three site skinfold protocol and calculation to determine percent body fat. On female subjects we tested suprailium, anterior thigh, and one other location. On the figure below, click where we took our third skinfold measurement.
Top Left Coordinates(496, 181)Bottom Right Coordinates(511, 207) *The picture that is posterior - behind the right arm, right next to the bra strap underarm part*
In lab VI we used a three site skinfold protocol and calculation to determine percent body fat. On female subjects we tested suprailium, triceps, and one other location. On the figure below, click where we took our third skinfold measurement.
Top Left Coordinates(51, 371)Bottom Right Coordinates(77, 424) Instructor selection
In lab VI we used a three site skinfold protocol and calculation to determine percent body fat. On male subjects we tested anterior thigh, umbilicus, and one other location. On the figure below, click where we took our third skinfold measurement.
Top Left Coordinates(59, 159)Bottom Right Coordinates(79, 185)
___________________________________ is when more motor units are stimulated more frequently to produce more force.
Twitch Summation
on EKG 23 is there any evidence of myocardial ischemia? if so, in what leads do you see significant evidence of ischemia? select all that apply
V3-V5
Abs. VO2 formula
VESTPD(NF x .2093 - FEO2)
Which of the following best describes the hold relax with agonist contraction PNF procedure if the goal is to improve stretch of the hamstrings?
We stretched the subject's hamstring passively until we reached the limits of its ROM. Then we had the subject contract their hamstrings submaximally and then maximally while we held their leg in place then had them relax while we pushed their leg further while the subject contracts their quadriceps muscles
Which of the following is/are true about the TV, RR, and VE response to exercise? Select all that apply
When given the choice, gas exchange is more effective if we increase TV than RR because it will result in greater increases in VA in the transition from rest to exercise there is a bigger increase in TV than RR VE increases roughly linearly across low and early moderate intensities, but beyond the ventilatory threshold, VE increases at a faster rate in order to blow off excess CO2 and buffer the blood As we make the transition from moderate to high intensities, we would expect a bigger increase in RR than TV
Mechanical efficiency
Work accomplished/energy expended WA: Net VO2 x Calor. Equiv. x min exercised Take watts times sec = joules (multiplu by .00024) = kcal
This immage depicts the SBP, DBP, and MAP response to exercise for the same subject during two different exercises (lines a-f): cycling and isometric knee extensions. Which line is likely the isometric knee extension SBP?
a
This immage depicts the SBP, DBP, and MAP response to exercise for the same subject during two different exercises (lines a-f): isometric bicep curls and sometric knee extensions. Which line is likely the isometric knee extension SBP?
a
If graph i depicts the changes in a-vO2 difference (y axis) between rest and maximal intensity cycling exercise, what factors could be causing this change?
a right shift in the O2 dissociation curve
If graph i depicts the changes in cardiac output (y axis) between rest and maximal intensity cycling exercise in a healthy untrained subject, what would be appropriate values for points a and b on the y axis in a healthy trained female subject?
a=5.1 b=31.9
During our "jumping" experiment we had our subject jump with or without a counter-movement, and we also had our subject perform some "drop jumps". We recorded EMG activity from the vastus lateralis and jump height during each. Here are some sample results from these experiments. What is a likely explanation for the decrease in jump height between the 0.25m and 0.5m drop jumps?
activation of golgi tendon organs, which may have decreased motor unit recruitment
During our "jumping" experiment we had our subject jump with or without a counter-movement, and we also had our subject perform some "drop jumps". We recorded EMG activity from the vastus lateralis and jump height during each. Here are some sample results from these experiments. What is a likely explanation for the increase in jump height between the 0.25m drop jump and 0.5m drop jump?
activation of muscle spindles, which may have helped to increase motor unit recruitment
During our "jumping" experiment we had our subject jump with or without a counter-movement, and we also had our subject perform some "drop jumps". We recorded EMG activity from the vastus lateralis and jump height during each. Here are some sample results from these experiments. What is a likely explanation for the increae in jump height between the counter movment and 0.25m drop jumps?
activation of muscle spindles, which may have increased motor unit recruitment
During our "jumping" experiment we had our subject jump with or without a counter-movement, and we also had our subject perform some "drop jumps". We recorded EMG activity from the vastus lateralis and jump height during each. Here are some sample results from these experiments. What is a likely explanation for the increase in jump height between the counter movement jump and the 0.25m drop jump?
activation of muscle spindles, which may have increased motor unit recruitment
Which of the following is/are NOT true about VO2max?
all of the above are true
In one of our lab VII experiments we looked at the effects of intensity on fuel substrate use. Which of the following statements regarding exercise intensity and fuel substrate use is/are NOT true?
an increase in ADP concentrations when we go from low to moderate intensity exercise would decrease PFK activity and increase carbohydrate use high intensity exercise decreases insulin secretion, which tends to decrease phosphorylase activity, which tends to increase carbohydrate use
If graph i depicts the changes in a-vO2 difference (y axis) between rest and maximal intensity cycling exercise, what factors could be causing this change?
an increase in hemoglobin concentration during this type of activity
Palpitations would most likely be associated with which of the following
arrhythmias
During our "jumping" experiment we had our subject jump with or without a counter-movement, and we also had our subject perform some "drop jumps". We recorded EMG activity from the vastus lateralis and jump height during each. Here are some sample results from these experiments. What is a likely explanation for the increase in jump height between the 0.25m drop jump and the counter movment jump?
better use of elastic energy return from proteins like elastin and titin
During our "jumping" experiment we had our subject jump with or without a counter-movement, and we also had our subject perform some "drop jumps". We recorded EMG activity from the vastus lateralis and jump height during each. Here are some sample results from these experiments. What is a likely explanation for the increase in jump height between the 0.5m drop jump and the 0.25m drop jump?
better use of energy return from structures like elastin and titin
During our "jumping" experiment we had our subject jump with or without a counter-movement, and we also had our subject perform some "drop jumps". We recorded EMG activity from the vastus lateralis and jump height during each. Here are some sample results from these experiments. What is a likely explanation for the increase in jump height between the counter movement jump and the 0.25m drop jump?
better use of the elastic components of the muscle
When we use a stethoscope and blood pressure cuff to determine blood pressure, we place the diaphragm of the stethoscope over which blood vessel?
brachial artery
There is evidence of which of the following rhythms/arrhythmias on EKG 3 in your packet? select all that apply
bundle branch block
There are many possible causes of chest pain. Which of the following chest pain examples would be most suggestive coronary artery disease?
burning sensation below the sternum during exercise
This immage depicts the SBP, DBP, and MAP response to exercise for the same subject during two different exercises (lines a-f): cycling and arm cranking. Which line is likely the arm crank MAP
c
relative anaerobic capacity
divide AAC by kg
This immage depicts the SBP, DBP, and MAP response to exercise for the same subject during two different exercises (lines a-f): isometric bicep curls and sometric knee extensions. Which line is likely the isometric knee extension DBP?
e
The following figure depicts EMG and iEMG activity during dynamic bicep curls until the subject could not lift the weight anymore. They lifted the weight 17 times before they fatigued. Which of the following mechanism(s) are LEAST likely to be causing this fatigue, given this set of data?
failure to release enough acetylcholine at the neuromuscular junction
If you were performing a hold relax with agonist contraction PNF procedure to try to improve gastrocnemius flexibility, which of the following muscles/muscle groups would we contract as during the first phase of this procedure?
gastrocnemius
which of the following is/are hormones that would tend to increase muscle glycogen breakdown?
glucagon epinephrine
The following figure depicts EMG and iEMG activity during dynamic bicep curls until the subject could not lift the weight anymore. They lifted the weight 17 times before they fatigued. Which of the following mechanism(s) are LEAST likely to be causing this fatigue, given this set of data?
glycogen depletion
Which of the following is an enzyme that promotes storage of glucose?
glycogen synthase
The following graph depicts the response of a physiological variable to a VO2max test - starting at rest and finishing at maximal exercise. Typical ranges are also provided on the Y-axis. This graph best depicts what variable's response during a VO2max test?
gradual increase then plateau .15-.4, 1.5-5.5 absolute VO2 in females
Which of the following hormones would tend to inhibit glucose uptake by adipose tissue and muscle (at rest)?
growth hormone cortisol
If you were performing a hold relax PNF procedure to try to improve hamstring flexibility, which of the following muscles/muscle groups would we contract as a part of this procedure?
hamstrings
If you were performing a hold relax with agonist contraction PNF procedure to try to improve hamstring flexibility, which of the following muscles/muscle groups would we contract during the first phase of this procedure?
hamstrings
Orthopnea could suggest that the patient has:
heart failure
Using the data below was this test a valid VO2max test? Why/Why not?. Select all that apply
heart rate max criteria was met This WAS a valid test for determining VO2max lactate criteria was met RER criteria was met RPE criteria was met
In one of our lab VII experiments we looked at the effects of intensity on fuel substrate use. Which of the following statements regarding exercise intensity and fuel substrate use is/are NOT true?
high intensity exercise decreases insulin secretion, which tends to decrease muscle glycogen breakdown
In one of our lab VII experiments we looked at the effects of intensity on fuel substrate use. Which of the following statements regarding exercise intensity and fuel substrate use is/are NOT true?
high intensity exercise is associated with greater recruitment of slow twitch fibers, which tends to increase carbohydrate use at higher intensities the percentage of calories coming from circulating fatty acids increases
Which of the following enzymes would tend to increase circulating fatty acids?
hormone sensative lipase
Which of the following enzymes would tend to increase triglyceride breakdow in adipose tissue?
hormone sensative lipase
Our body is a little like Goldilocks; it wants everything just right. Which of the following is/are true about hypertension, normotension, and hypotension?
hypertension increases the risk of having a stroke, a blood pressure of 80 over 40 could cause syncope, severe hypotension may be a more immediate threat to a pateint's life than hypertension, 40-50% of all US adults have hypertension
One of the following graphs depicts the changes in heart rate (Y axis) from rest to maximal intensity cycling exercise (on the X axis). Which graph best illustrates the trend for this variable?
i
Which of the following hormones would be unlikely to increase blood glucose? select all that apply
insulin
Which of the following hormones would increase glycogen storage in the muscle? select all that apply
insulin
Which of the following hormones would inhibit lipolysis in adipose tissue? select all that apply
insulin
which of the following is/are hormones that would tend to increase glycogenesis?
insulin
Which of the following would increase muscle glucose uptake? select all that apply
insulin muscularr activity/exercise
____________________________________ is a common symptom in subjects with peripheral vascular disease and it is associated with pain in their muscles (often in the calves) when they exercise.
intermittent claudicaiton
Which of the following is/are NOT a possible sign that a patient may have heart failure?
intermittent claudications
Poor strength of the vastus medialis relative to the vastus lateralis (the largest and strongest of the quadriceps muscles) can contribute to poor tracking of the patella during extension of the knee. This can result in patellofemoral pain. It would thus be very helpful to identify activities that are good at isolating the vastus medialis so that it can specifically be strengthened. The following data were recorded from a single subject's vastus lateralis (VL) and vastus medialis (VMO) muscles during the concentric phase of several exercises.Which of the following exercises best activates the VMO?
isometric quad contraction
Poor strength of the vastus medialis relative to the vastus lateralis (the largest and strongest of the quadriceps muscles) can contribute to poor tracking of the patella during extension of the knee. This can result in patellofemoral pain. It would thus be very helpful to identify activities that are good at isolating the vastus medialis so that it can specifically be strengthened. The following data were recorded from a single subject's vastus lateralis (VL) and vastus medialis (VMO) muscles during the concentric phase of several exercises.Which of the following exercises best isolates the VL?
isometric quad contraction
Poor strength of the vastus medialis relative to the vastus lateralis (the largest and strongest of the quadriceps muscles) can contribute to poor tracking of the patella during extension of the knee. This can result in patellofemoral pain. It would thus be very helpful to identify activities that are good at isolating the vastus medialis so that it can specifically be strengthened. The following data were recorded from a single subject's vastus lateralis (VL) and vastus medialis (VMO) muscles during the concentric phase of several exercises.Which of the following exercises best isolates the VMO?
isometric quad contraction
If the weather report (or your sling psychrometer) say that the wet bulb temperature was 56F and the dry bulb temperature was 67F, and your subject's core temperature was 37.1C, and their skin temperature was 33.2. Which of the following are true about the humidity under these circumstances?
it is neither very humid, nor very dry
If the weather report (or your sling psychrometer) say that the wet bulb temperature was 62F and the dry bulb temperature was 75F. The temperature in the lab was 22C (75F), the subject's core temperature was 37.1C, and their skin temperature was 34.4. Which of the following are true about the humidity under these circumstances?
it is neither very humid, nor very dry
If graph i depicts the changes in TPR (y axis) between rest and maximal isometric knee extensions, how would this change influence the blood pressure response to exercise?
it is why DBP increases during this type of activity
If graph ii depicts the changes in stroke volume (y axis) between rest and maximal intensity cycling exercise, how would this figure look different if we took these measurements in the same subject after 2 months of cycling 5 days per week?
it would increase more and plateau at a higher intensity
BMI
kg/(m^2)
Which of the following changes would cause the biggest decrease in Torque using concentric actions?
knee extensors going from 30 deg/sec to 300 deg/sec
Which of the following would produce the least force?
knee flexors medium speed
The following set of data is from a VO2max test. Was this a Valid VO2max test? What validity criteria WERE met? (note: as a short answer question on exams you would be asked to write out all criteria that were and were not met and include important cutoff values)
lactate criteria was met This was NOT a valid test for determining VO2max heart rate max criteria was met
The following graph depicts the response of a physiological variable to a VO2max test - starting at rest and finishing at maximal exercise. Typical ranges are also provided on the Y-axis. This graph best depicts what variable's response during a VO2max test?
linear increase and then plateau; y-axis: 3.5, 35-90 relative VO2 in males
The following graph depicts the response of a physiological variable to a VO2max test - starting at rest and finishing at maximal exercise. Typical ranges are also provided on the Y-axis. This graph best depicts what variable's response during a VO2max test?
linear increase, then slope: y-axis: 3.5, 25-75 Rel VO2 in females
Which of the following enzymes would tend to increase fatty acid uptake by adipose tissue?
lipoprotein lipase
If graph i depicts the changes in a-vO2 difference (y axis) between rest and maximal intensity cycling exercise, what factors could be causing this change?
loss of plasma volume
The following figure depicts EMG and iEMG activity during dynamic bicep curls until the subject could not lift the weight anymore. They lifted the weight 17 times before they fatigued. Which of the following mechanism(s) are LEAST likely to be contributing this fatigue, given this set of data?
low pH inhibiting PFK, which would reduce ATP production
If graph v depicts the changes in TPR (y axis) between rest and maximal intensity cycling exercise, what factors could be contributing to this change?
low pO2 and high pCO2 in the systemic capillaries
Fatigue Index
lowest 5 sec/highest 5 sec x 100
Running Economy:
mi/hr x 1609km/mi x 1hr/60min multiply by ml/kg/min (PACE)
What does the 4th Korotkoff sound sound like?
muffled
Accumulated oxygen deficit steps
multiply bw by 5.1 divide by 1,000 calculate slope take watts given and plug into equation take value calculated and subtract given values multiply final value by 1,000 then divide by bw
Joules
multiply by .00024
During the second phase of the hold relax with agonist contraction PNF procedure, which of the following types of receptors is theoretically being used to help us improve range of motion?
muscle spindles
Which of the following would increase muscle glucose uptake? select all that apply
muscularr activity/exercise insulin
Which of the following is/are NOT absolute contraindications to maximal exercise testing? Select all that apply
patient who experiences extreme pain in calves when walking (even very slow speeds) due to peripheral vascular disease patient who comes to your office with a resting blood pressure of 220/92 patient who had a stroke 10 days ago patient who recently started experiencing angina when they exercise patient with severe anemia
which of the following is/are enzymes that would tend to increase the rate of glycogen breakdown?
phosphorylase
In lab we collected data related to force-velocity and power-velocity relationships. One such set of data is presented graphically below. Why does point M have a high value on this figure?
power is high; intermediate velocity and force provides the best combination for producing power
Peripheral Fatigue
problems with the neuromuscular junction between the motor nerve and muscle or problems within the muscle cell at the level of the sarcomere T-Tubules Sarcoplasmic Reticulum Energy Pathways (PCr) Actin-myosin relationships
Which of the following findings in a patient would be associated with an increased risk of developing a cardiovascular disease?
quit smoking 4 mo's ago
Which of the following findings in a patient would be associated with an increased risk of developing a cardiovascular disease?
quit smoking 4 months ago
During the second phase of the hold-relax with agonist contraction procedure to try to increase the stretch of a muscle we make use of which of the following reflex phenomena?
reciprocal inhibition
Which of the following are reasons why EPOC is related to O2 deficit (i.e. why we used to call it O2 debt)? (select all that apply)
resaturaiton of hemoglobin and myoglobin O2 stores An additional oxygen cost is required post exercise to facilitate the removal of lactate by oxidation. additional oxygen is needed to make extra ATP to replenish PCr stores
Poor strength of the vastus medialis relative to the vastus lateralis (the largest and strongest of the quadriceps muscles) can contribute to poor tracking of the patella during extension of the knee. This can result in patellofemoral pain. It would thus be very helpful to identify activities that are good at isolating the vastus medialis so that it can specifically be strengthened. The following data were recorded from a single subject's vastus lateralis (VL) and vastus medialis (VMO) muscles during the concentric phase of several exercises.Which of the following exercises best activates the VMO?
seated straight leg raise
Poor strength of the vastus medialis relative to the vastus lateralis (the largest and strongest of the quadriceps muscles) can contribute to poor tracking of the patella during extension of the knee. This can result in patellofemoral pain. It would thus be very helpful to identify activities that are good at isolating the vastus medialis so that it can specifically be strengthened. The following data were recorded from a single subject's vastus lateralis (VL) and vastus medialis (VMO) muscles during the concentric phase of several exercises.Which of the following exercises best isolates the VL?
single leg squat
Poor strength of the vastus medialis relative to the vastus lateralis (the largest and strongest of the quadriceps muscles) can contribute to poor tracking of the patella during extension of the knee. This can result in patellofemoral pain. It would thus be very helpful to identify activities that are good at isolating the vastus medialis so that it can specifically be strengthened. The following data were recorded from a single subject's vastus lateralis (VL) and vastus medialis (VMO) muscles during the concentric phase of several exercises.Which of the following exercises best isolates the VMO?
single leg squat
There is evidence of which of the following rhythms/arrhythmias on EKG 10 in your packet? select all that apply
sinus bradycardia
There is evidence of which of the following rhythms/arrhythmias on EKG 14 in your packet? select all that apply
sinus bradycardia sinus arrhythmia
___________________________________ is related to the orderly recruitment of motor units from smallest to largest
size principle
Muscle Wisdom
slowing discharge rate during fatiguing conditions to maintain force output
Some athletes are better at long events, some at short events, and some at intermediate distances. These different types of events require different physiological strengths (and permit certain weaknesses). Match the physiological test data with the best match for the different types of athletes below.
small female 100m sprinter (best time 11.32s) d. VO2max 33.6 ml/kg.minLT at 44.5% of VO2maxAbsolute Maximum Anaerobic Power 632 WRelative Max Anaerobic Power 10.2 W/kgAccumulated O2 deficit 71.2 ml/kg large female 200m sprinter (best time 22.59s) a. VO2max 31.6 ml/kg.minLT at 41 % of VO2maxAbsolute Maximum Anaerobic Power 788 WRelative Max Anaerobic Power 9.9 W/kgAccumulated O2 deficit 69.1 ml/kg average sized female 1500m (middle distance) runner (best 1500m time 4min 14.6 sec) c. VO2max 67.2 ml/kg.minLT at 79.6 % of VO2maxAbsolute Maximum Anaerobic Power 441 WRelative Max Anaerobic Power 7.2 W/kgAccumulated O2 deficit 68.5 ml/kg small female marathoner (best time 2 hrs 26 min 58 sec) b. VO2max 69.1 ml/kg.minLT at 93.1 % of VO2maxAbsolute Maximum Anaerobic Power 351 WRelative Max Anaerobic Power 7.1 W/kgAccumulated O2 deficit 46.5 ml/kg
When we perform a counter-movement to try to jump higher, one possible mechanism for this improvment in jump height might be tied to activating which of the following reflexes?
stretch reflex
In one of our lab VII experiments we looked at the effects of intensity on fuel substrate use. Which of the following statements regarding exercise intensity and fuel substrate use is/are NOT true?
the absolute number of fat calories burned at low intensities is usually higher than the amount burned during moderate intensity exercise high intensity exercise is associated with greater recruitment of fast twitch fibers, which tends to decreases carbohydrate use
In lab one of our experiments looked at the effects of velocity and type of action (concentric, eccentric, isometric) on the abiltiy to produce force during knee extension and flexion exercise on an isokinetic dynamometer. The figure below depcits some of this data. Match the points on the figure with the best descriptions below.
the axis that represents the torque: K velocity of 0 degrees/second: M concentric velocity of 300 degrees/second: L The curve for the extensor muscles: P The curve for the flexor muscles: O
In lab one of our experiments looked at the effects of velocity and type of action (concentric, eccentric, isometric) on the abiltiy to produce force during knee extension and flexion exercise on an isokinetic dynamometer. The figure below depcits some of this data. Match the points on the figure with the best descriptions below.
the axis that represents the torque: P axis that represents velocity: J eccentric velocity of 90 degrees/second: M The curve for the extensor muscles: K The curve for the flexor muscles: L
In lab one of our experiments looked at the effects of velocity and type of action (concentric, eccentric, isometric) on the abiltiy to produce force during knee extension and flexion exercise on an isokinetic dynamometer. The figure below depcits some of this data. Match the points on the figure with the best descriptions below.
the axis that represents the torque: P axis that represents velocity: J eccentric velocity of 90 degrees/second: M eccentric velocity of 90 degrees/second: K eccentric velocity of 90 degrees/second: L
In lab one of our experiments looked at the effects of velocity and type of action (concentric, eccentric, isometric) on the abiltiy to produce force during knee extension and flexion exercise on an isokinetic dynamometer. The figure below depcits some of this data. Match the points on the figure with the best descriptions below.
the axis that represents velocity: Q velocity of 0 degrees/second: M eccentric velocity of 90 degrees/second: N The curve for the extensor muscles: P The curve for the flexor muscles: O
During our "jumping" experiment we had our subject jump with or without a counter-movement, and we also had our subject perform some "drop jumps". We recorded EMG activity from the vastus lateralis and jump height during each. Here are some sample results from these experiments. What is a likely explanation for the increase in jump height between the counter movement jump and the 0.25m drop jump?
the initiation of a stretch reflex
During our "jumping" experiment we had our subject jump with or without a counter-movement, and we also had our subject perform some "drop jumps". We recorded EMG activity from the vastus lateralis and jump height during each. Here are some sample results from these experiments. What is a likely explanation for the increase in jump height between the counter movement jump and the no-counter movment jump?
the initiation of a stretch reflex
In lab we collected data related to force-velocity and power-velocity relationships. One such set of data is presented graphically below. How would a muscle with more FT fibers compare to this subject at point M?
the subject with more fast twitch fibers would have higher values
If the weather report (or your sling psychrometer) say that the wet bulb temperature was 51F and the dry bulb temperature was 75F. The temperature in the lab was 22C (75F), the subject's core temperature was 37.1C, and their skin temperature was 34.4. Which of the following are true about the humidity under these circumstances?
there is low humidity
The subject of EKG 5 in your packet is exerciseing. What should you be most concerned about on their EKG? select all that apply
they have R on T PVCs the type of PVC they are having increases the risk of ventricualr fibrillation
In lab we collected data related to force-velocity and power-velocity relationships. One such set of data is presented graphically below. How would a muscle with more FT fibers compare to this subject at point Q?
they would be about the same
Which of the following hormones would increase glycogenolysis in adipose tissue? select all that apply
this process doesn't occur in this tissue
The first Korotkoff sound is associated with:
turbulent blood flow
If we were using fine wire EMG and observed an increase in EMG frequency when our subject produced more force, this would be evidence of what type of summation?
twitch summation
If graph ii depicts the changes in stroke volume (y axis) between rest and maximal intensity cycling exercise in a healthy untrained subject, what factors could be contributing to this change?
two of these answers
If graph v depicts the changes in TPR (y axis) between rest and maximal intensity cycling exercise, what factors could be contributing to this change?
two of these answers
The EMG data below was collected during a variety of activities from the abdominal muscles (abs) and from the rectus femoris (hip flexors). Which of the following exercises best activates the abdominal muscles?
two of these are equally good
In lab one of our experiments looked at the effects of velocity and type of action (concentric, eccentric, isometric) on the abiltiy to produce force during knee extension and flexion exercise on an isokinetic dynamometer. The figure below depcits some of this data. Match the points on the figure with the best descriptions below.
velocity of 0 degrees/second: J concentric velocity of 300 degrees/second: K eccentric velocity of 90 degrees/second: O The curve for the extensor muscles: L The curve for the flexor muscles: M
Match the following with the appropriate parts of this figure:
venous O2 content: E 20 Vols%: D PO2 in systemic arteries: G 40 mmHg: F position of curve at rest: I position of curve with high CO2 concentration: H
Match the following with the appropriate parts of this figure:
venous O2 content: E (on far right, second letter) 20 Vols%: D (on far right, first letter) PO2 in systemic arteries: G, (X-axis second letter) 40 mmHg: F (x-axis first letter) Position of curve at rest: I Position of curve during exercise: H
If graph ii depicts the changes in stroke volume (y axis) between rest and maximal intensity cycling exercise in a healthy untrained subject, what factors could be contributing to why this variable plateaus in most subjects during acute exercise?
ventricular filling time decreases at high intensities
The following graph depicts the response of a physiological variable to a VO2max test - starting at rest and finishing at maximal exercise. Typical ranges are also provided on the Y-axis. This graph best depicts what variable's response during a VO2max test?
y-axis: .15-.4, 1.5-5.5 absol. vo2 in females
The following graph depicts the response of a physiological variable to a VO2max test - starting at rest and finishing at maximal exercise. Typical ranges are also provided on the Y-axis. This graph best depicts what variable's response during a VO2max test?
y-axis: 12, 30 drop, plateau then incline VE/VO2
The following graph depicts the response of a physiological variable to a VO2max test - starting at rest and finishing at maximal exercise. Typical ranges are also provided on the Y-axis. This graph best depicts what variable's response during a VO2max test?
y-axis: 12-20, 45-60 respiratory rate
The following graph depicts the response of a physiological variable to a VO2max test - starting at rest and finishing at maximal exercise. Typical ranges are also provided on the Y-axis. This graph best depicts what variable's response during a VO2max test?
y-axis: 300-800, 2000-5000 tidal volume iin ml/breath