PHYS1114 Lab Final
T=2π(√l÷g)
pendulum lab period equation
speeding up
for velocity vs time graph if the graph is moving away from the t-axis, the magnitude of the velocity is...
slowing down
for velocity vs time graph if the graph is moving toward the t-axis, the magnitude of the velocity is...
magnitude of the acceleration
for velocity vs time graph the magnitude of the slope will give you the...
direction of acceleration
for velocity vs time graph the sign of the slope will give you the...
static/kinetic/static
friction lab ________ friction is greater than ________ friction, so _______ friction takes more force to start motion
cork
friction lab ________ has the highest coefficient of static friction, so it has a rougher surface than the others
µk=fk/FN=fk/mg
friction lab coefficient of kinetic friction equation
µs=fs/FN=fs/mg
friction lab coefficient of static friction equation
no, mass and gravity affect friction
friction lab does the surface area affect the coefficient of friction?
the acceleration due to gravity
given the equation: a=(m(sub)a/M1+M2+m(sub)a+m(sub)f)*g the slope of the graph of acceleration vs. the mass ratio is...
straight line through the origin
given the equation: a=(m(sub)a/M1+M2+m(sub)a+m(sub)f)*g describe the graph that you would obtain if you plotted acceleration vs. the mass ratio
greater than
the coefficient of static friction is always ___________ the coefficient of kinetic friction
static
the frictional force that holds an object in place is called __________ friction
kinetic
the frictional force that slows down an object while in motion is called ____________ friction
greater than
the translational kinetic energy of the mass, m, and the rotational kinetic energy of the platter at time, t1, is __________ the translational kinetic energy of the mass, m, and the rotational kinetic energy of the platter at t3 use graph on phone
increase
use pendulum pic on phone a specific pendulum has a period, T, given by the equation T=(2π/√g)*L^½ If the length of the string, L, is increased, the period will...
%diff=(|experimental-experimental|÷average exp)x100
% difference equation
%error=(|experimental-theoretical|÷theoretical)x100
% error equation
h=1/2gt²
atwood machine lab equation for height
false
T or F, the coefficient of friction can be zero, meaning there is no friction between the two surfaces
true
T or F, the total angular momentum of a system of rotating objects is conserved if the vector sum of the torques of all the external forces acting on the system is zero
remain the same
a specific pendulum has a period, T, given by the equation T=(2π/√g)*L^½ If the mass of the pendulum, m, is decreased, the period will...
decrease
a specific pendulum has a period, T, given by the equation T=(2π/√g)*L^½ If the pendulum is moved from the earth where g=9.8m/s² to Jupiter where g=26.0m/s², the period of the pendulum will...
remain the same
a specific pendulum has a period, T, given by the equation T=(2π/√g)*L^½ If the angle is increased from 2 degrees to 4 degrees, the period will...
where the object is located
according to kinematics (x=1/2gt²), the acceleration is dependent only upon...
kinetic friction, as it is the frictional force that slows an object down as it's moving
atwood machine lab for which type of friction are we attempting to compensate for when we add the clay? Why?
a=(m(sub)a÷(M1+M2+m(sub)f+m(sub)a))*g
atwood machine lab magnitude of acceleration equation
This would instead be compensating for static friction, which is the force that must be overcome for another object to start moving. If static friction is accounted for, then the two masses can move on their own
atwood machine lab what would happen to the system if you added clay until it moved on its own?
no
based solely on the angular speed vs time graph, is the total mechanical energy of the platter/mass system conserved? use graph on phone
final L = (Imp+Iap)ωf or (Imp+Ibar)ωf
circular motion lab final angular momentum equation
RKEf=½(Imp+Iap)ω² or ½(Imp+Ibar)ω²
circular motion lab final rotational kinetic energy equation
RKEi=½Iω²
circular motion lab initial rotational kinetic energy equation
Emech=GPE+KE+RKE=mgh+½mv²+½Iω²
circular motion lab mechanical energy equation
No, kinetic energy could have been lost during deformation of the system due to friction during initial contact
circular motion lab was RKE conserved?
kinetic friction between the string/pulley and air resistance
circular motion lab what factors may explain why the total mechanical energy of the main platter and hanging mass was NOT conserved?
inelastic, because KE isn't conserved while angular momentum is. The objects stick together
circular motion lab what kind of collision takes place between the main platter and the auxiliary platter and the main platter and the bar?
initial L = Imp(ωi)
circular motion lab initial angular momentum equation
a curve with an increasing slope
considering our pulley system with a mass falling at a constant acceleration, what should the general shape of its position vs. time graph look like?
a straight line
considering our pulley system with a mass falling at a constant acceleration, what should the general shape of its velocity vs time graph look like?
no
does the mass return to its initial height above the floor at time, t2? use graph on phone
y=1/2gt²
falling bodies lab according to kinematics, the predicted expression for the behavior of the balls as they fall through the air is _________
slope = 1/2g
falling bodies lab in the equation y=1/2gt², slope is equal to...
moving in the positive direction
for velocity vs time graph if the graph is above the t-axis, motion is...
moving in the negative direction
for velocity vs time graph if the graph is below the t-axis, motion is...
-> x = kt², where k is constant -> displacement, x, is proportional to the square of the time, t² -> displacement, x, and time, t, obey a power law
given the kinematics equation for the motion of an object falling from rest, x=1/2gt², what kind of relationship is predicted between x and t?
increasing
if the force applied on an object is greater than the force of kinetic friction, the object will travel with ________ velocity
they will hit at the same time
if you drop a feather and penny in a vacuum (no air resistance), which one would hit the ground first?
the penny will hit first
if you drop a feather and penny in the air, which one would hit the ground first?
- postive slope - straight line - y intercept is zero (goes through origin)
if you plotted x vs t² for an object falling from rest (assuming down to be positive), what should the graph look like?
the slope
in the atwood machine lab, the experimentally determine value of the magnitude of acceleration due to gravity is obtained from the __________
slope=2π÷√g plug slope in from graph and solve for g
pendulum lab equation used to find the experimental acceleration due to gravity for the pendulum
T will increase
pendulum lab what do you think will happen to the period of a pendulum as the length of the pendulum is increased?
T won't be affected
pendulum lab what do you think will happen to the period of a pendulum as the mass of the pendulum is increased?
T will not be affected
pendulum lab what do you think will happen to the period of the pendulum as the displacement of the pendulum is increased?
analysis of graph: - slope equals 0m/s - sign of slope changes from + to - description of motion: - momentarily stops - accelerates in the negative direction
using picture of phone analyze the graph and describe the motion at time t3 for the position vs time graph
analysis of graph: - above the t-axis - moving away from the t-axis - slope is positive and constant description of motion: - moving in the positive direction - speeding up - positive, constant acceleration
using picture on phone analyze the graph and describe the motion at 0-t1 for the velocity vs time graph
analysis of graph: - above t-axis - slope is zero description of motion: - moving in the positive direction - moving at a constant speed - no acceleration
using picture on phone analyze the graph and describe the motion at t1-on for the velocity vs time graph
analysis of graph: - positive slope - magnitude of slope increases description of motion: - moves in positive direction - speeds up - accelerates in positive direction
using picture on phone analyze the graph and describe the motion at time 0-t1 for the position vs time graph
analysis of graph: - positive slope - constant slope description of motion: - moves in positive direction - constant velocity - no acceleration
using picture on phone analyze the graph and describe the motion at time t1-t2 for the position vs time graph
analysis of graph: - slopes are positive - magnitude of slope decreases description of motion: - moves in positive direction - slows down - accelerates in the positive direction
using picture on phone analyze the graph and describe the motion at time t2-t3 for the position vs time graph
analysis of graph: - slopes are negative - magnitude of the slope increases description of motion: - moves in the negative direction - speeds up - accelerates in the negative direction
using picture on phone analyze the graph and describe the motion at time t3-t4 for the position vs time graph
analysis of graph: - negative slope - constant slope description of motion: - moves in the negative direction - constant velocity - no acceleration
using picture on phone analyze the graph and describe the motion at time t4-t5 for the position vs time graph
equal to
using the picture of the graph on your phone:) the gravitational potential energy of the mass, m, at time, t1, is ___________ the gravitational potential energy of the mass, m, at time, t3.
s
what are the units for the period of a pendulum from this equation T=(2π/√g)*L^½
to counter balance the kinetic friction of the system
what is the purpose of the friction rider?
