Accuplacer:
How can be "convert": - from (radians) ----> (degrees): - from (degrees) ----> (radians):
"degrees" = multiply by - (pi)/180 = "radians" "radians" = multiply by - 180/(pi) = "degrees"
(angle theta) = (inverse tan) A :
(A) = Domain (inverse tan) A - can = (any real #)
(angle theta) = (inverse cos) A :
(A) = Domain (x) (inverse cos) A - (can have a domain) = within the #'s between (-1) and (1) ** [ (inverse cos) A ] & [ (inverse sin) A ] : = both have the same domain
(angle theta) = (inverse sin) A : Define (A) and what (A) can equal
(A) = Domain (x) (inverse sin) A - (can have a domain) = within the #'s between (-1) and (1) ** [ (inverse cos) A ] & [ (inverse sin) A ] : = both have the same domain
[(y) = Asin (Bx + C) + D] - define - "absolute value" [A]: Explain how to find it using its own formula:
- "absolute value" [A] = the "amplitude" or "height" of the curves in the graph - so if: [A] = (6) and was in the formula - (y=6cosx) - that would mean that the highest point of the curve is at (6) and the lowest is at (-6) - [A] = (max - min)/2
In equation - [(y) = A(sin/cos) (Bx + C) + D] - how do can we recognize an "up-down shift":
- "up-down shift" = (D) - we can recognize it because it will always be added or subtracted after the parenthesis - if (D) is "positive" - the graph is moving "UP" - but if (D) is "negative" - the graph is moving "DOWN"
Define (r) in a "coordinate plane" - Define (r) in a "right triangle" of a trig function - Define the "formula" of finding (r) according to trig functions
- (r) = the "distance" between the origin (center) of a coordinate plane (x and y-axis) to - any pt. (x,y) - in a - "right triangle" - (r) = the side of the hypotenuse (c) = radius (r) = "square root over all" (x^2 + y^2)
What is the "period" for: (sin, cos, and tan) & (csc, sec, cot)
- (sin, cos) & ( csc, sec) - period = 360 (degrees) or 2(pi) (radians) - (tan, cot) - period = 180 (degrees) or (pi) (radians)
Solve: 8^(-2)
- 8^(-2) = 1/8^(2) = 1/64
When graphing/sketching - (sin & cos) - what formula should you use immediately
- [(y) = Asin (Bx + C) + D] - [(y) = Acos (Bx + C) + D] - "absolute value" [A] = the "amplitude" or "height" of the curves in the graph - "period" = (360/B) - in degrees, or (2(pi)/B) - in radians - this solves for how many times the graph repeated its cycle/curve
Explain what this would look like if you sketched - [y = -2sin(3x-120(degrees))]
- [y = -2sin(3x-120(degrees))] - the [A] - "amplitude/height" of the curve will be = (2) - however, since (2) is "negative" the curve will be - "upside down" - the period of this sketch can be found by taking (360/3 (degrees)) = 120 (degrees) - since we see parenthesis within the problem - we know there will be a "left-right shift" - to solve we first set the entire expression in the parenthesis = to zero - (3x-120 degrees = 0 degrees) we can do this because - (sin0 = 0 degrees) - after solving we get - (x) = 40 (degrees) = this means that a "left-right shift" of y=0 is 40 (degrees) to the right since 40 is positive - since nothing is being added or subtracted after the parenthesis - we can conclude there is NO "up-down shift" = (D)
Describe whats different about the graph of - (y=Acosx) - when (A>0): vs. (A<0):
- if (A>0) "positive" than the curve is - "right side up" - if (A<0) "negative" than the curve is - "upside down" **(note!: the curve that is actually "right side up" looks "upside down) and vice versa -so make sure to not get confused!)
Sketch: (y = cosx)
- refer to - page (230)
Sketch: (y = sinx)
- refer to - page (230)
Describe whats different about the graph of - (y=Asinx) - when (A>0): vs. (A<0):
- with "SIN" - (y=Asinx) if: - (A>0) "positive" - than the curve will start like normal (0,0) and first head upwards - (A>0) "negative" - the the curve will still start like normal (0,0) but instead it will head downwards **depending if (A) is positive or negative will also effect where the curve will stop - (but thats not as important)
7 common - "conversions/equivalents" of (degrees & radians)
1. (30 degrees) = (pi)/6 2. (45 degrees) = (pi)/4 3. (60 degrees) = (pi)/3 4. (90 degrees) = (pi)/2 5. (180 degrees) = (pi) 6. (270 degrees) = 3(pi)/2 7. (360 degrees) = 2(pi)
Define the - (6) Basic Trig Names & Ratios - (x, y, and r) and include "theta": *(hint!) - easiest way to answer = to draw a triangle in a coordinate plane - and than define trig ratios
1. (sin "theta") = (y/r) 2. (cos "theta) = (x/r) 3. (tan "theta") = (y/x) 4. (csc "theta") = (r/y) 5. (sec "theta") = (r/x) 6. (cot "theta") = (x/y)
Solving for the Trig Value - using graphing : [cos150 (degrees)]
1. draw a coordinate plane - (x and y-axis) 2. since - 150 (degrees) is located in the 2nd quadrant - so we will draw a right-triangle in the 2nd quadrant 3. then by starting at the positive side of the (x-axis) as 0 (degrees) - the angle will be formed by ending in (Q2) at 150 (degrees) - this angle is defined as = (angle (Greek letter) "theta") 4. Since (Q1) = 90 (degrees) we can subtract - 150-90 = which equals 60 (degrees) - since (Q2) also = 90 (degrees) we then subtract 90-60 and get = 30 (degrees) - so the acute angle nearest to the origin (0,0) will be defined as 30 (degrees) - so the side across from 30 (degrees) will equal = (1) and the other "leg" of the triangle will have a side value of = (-square root 3) - since (x) is negative in (Q2) and the hypotenuse = (2) 5. think back to "basic trig functions" where (cos) = (x/r) - which in this case would be = [(-square root 3)/2] 6. the solution - (cos)150 (degrees) = [(-square root 3)/2]
Define the 3 MAIN Steps for "graphing a linear inequality"
1. plot the "y=" line 2. if (y</equal to), or (y>/equal to) = the line will be SOLID on the graph if (y<), or (y>) = the line will be DASHED on the graph 3. shade ABOVE the line if "(y> or y>/equal to)" shade BELOW the line if "(y< or y</equal to)"
Define & Explain - the 2 Types of Permutations
1. repetition - (a locks code = 333) - (n^r) : (n = number of things to choose from/possibilies) (r = how many you choose at a time) 2. NO repetition - (3 people are running a race, one person can not be first and second) - n!(n − r)! *Instead of writing the whole formula, people use different notations such as these: - permutation notation P(n,r) = nPr = n!/(n-r)!
Area of a Triangle
1/2bh
When given a Triangle define the - "capital letters" (A,B,C) and "lower-case letters" (a,b,c) What is the trend between the "capital letters" (A,B,C) and "lower-case letters" (a,b,c)
= "capital letters" (A,B,C) = ANGLES = "lower-case letters" (a,b,c) = SIDES = the same letters - ex:(A and a) - are across from each other on a triangle
Explain what - "the distance" means Define - "distance formula" for a line(s)
= "distance" - the length between two points on a plane - (x1, y1), (x2, y2) * does not have to be forming a line *distance is ALWAYS positive = (Distance (d) = "square root" all over - [( x2-x1)^2 + (y2-y1)^2]
Explain what - "the midpoint" means Define - "midpoint formula" for a line(s)
= "midpoint" - the middle point between two points on a plane - (x1, y1), (x2, y2) -that are forming one line *remember - "MidPOINT" = Midpoint (M) = [(x1+x2)/2] , [(y1+y2)/2]
Vertical Lines have ____________ slope.
= "undefined", "no slope", "infinite"
In a Triangle: - define the term of the - "peak"/the highest angle - what are the other 2 angles called - what must be true about the - largest (#) angle and largest (#) side - what is the important rule about the sides of a triangle
= "vertex angle" = "base angles" = they must be across from each other - ex:(A and a) = (c) is always the "hypotenuse" and the largest (#) side - but sides (a) and (b) must be greater than (c) when added together
Define the term for - 2 angles that are - "diagonal" or "across from each other"
= "vertical angles"
tan90 (degrees) =
= ("undefined", none or infinity) - because the denominator = 0
When looking at a graphed line - how can we immediately know if the slope is negative or positive
= (-) "negative slope" = (line starts in Q3 - the line ends in Q1) = (+) "positive slope" = (lines starts in Q1 - the line ends in Q4)
cos(pi) (radians) =
= (-1)
cos180 (degrees) =
= (-1)
sec (pi) (radians) =
= (-1)
sec180 (degrees) =
= (-1)
In equation - [(y) = A(sin/cos) (Bx + C) + D] - how do you solve for a "left-right shift":
= (-C/B) - it will always be in parenthesis when given
Horizontal Lines have ____________ slope.
= (0)
Define - "origin"
= (0,0) = the point where two axes meet
Define "reciprocal" of (x)
= (1/x) or (x^-1)
Define the - 2 "special right triangles" - and all of their key variables/factors
= (30-60-90) degrees: - which ever acute angle = (30 degrees) - side adjacent to it = "the shortest leg of the triangle" = (1) - the "hypotenuse" = (double the smallest side) = (2) - the "longer leg" = (square root 3) * the (30 degree angle and the 60 degree angle) can be on either acute angle - AS LONG AS - its corrispinding (x) and (y) values accurately agree with the (x and y-axis) = (45-45-90) degrees: - (BOTH - 45 degree angles) are adjacent from - sides that = (1) - (an easier way to say it): = the legs = (1) and the hypo. = (square root 2)
5 sandwiches, 4 desserts and 3 drinks - (you can only have 1 of each) - how many different meals can you chose from
= (5)(4)(3) = 60
If - line (t) - crossed through 2 "parallel lines": What is formed from this? Define the similarities Define the term used for - (t)
= (8) angles are formed = 2 angles that are - "side by side" - add up to 180 (degrees) = 2 angles that are - "diagonal" or "across from each other" are EQUAL to - each other AND those in same positioned angles in the 2nd group = (t) = "transversal"
Define all the multiples of 90 When - angle "theta" - is a multiple of 90 (degrees) what is (r)
= (90, 180, 270, 360) - (r) = 1 - once you have (r) - you define (x) and (y) according to their location (+/-) and then you can define the 6 basic trig functions
Give the - General Form of a line - and describe what it essential means
= (Ax + By +C = 0) *rule: A can NOT = (0) = "some expression" [= (0)] - expression ALWAYS equals 0
Give the - Standard Form of a Linear Equation Describe how to quickly find the - "slope" and "y - intercept" of this specific equation
= (Ax + By = C) *rule: A or B can NOT = (0) *rule: A can NOT be "negative" (-) = "slope" = (-A/B) = "y-intercept" = (C/B)
Define - Pythagorean Theorem
= (a^2 + b^2 = c^2)
Give the - Standard Form of a Quadratic Equation
= (ax^2 + bx + c = 0)
All solutions to Trig Equations will be between what (#'s)
= (degrees) = (0-360) = (radians) = (0 - 2(pi)) ** including (0) zero
Define the BIGGEST difference between a "function" and "inverse function"
= (function) = D(domain) & R(range) = (inverse function) = D(range) & R(domain)
Define - (h,k)
= (h,k) = the "center" point of a circle - a "fixed point"
If a translation moves the graph of f(x) h units to the RIGHT - (h) would =
= (h<0) - "negative" # - comparing graphs (x=y) and (x = y-1)
If a translation moves the graph of f(x) h units to the LEFT - (h) would =
= (h>0) - "positive" # - comparing graphs (x=y) and (x = y+1)
Change into fraction form: loga(x)
= (logb(x)/logb(a)) - (b) = common base - 10 - (x) = UP - (base "a") = DOWN
Define/Explain - "slope" of a line
= (m)=(rise/run)=(change in y/change in x) = (y2-y1/x2-1)
1 degree = ____________ radians
= (pi) / 180
Define what the - distance from (h,k) to any (x,y) point is
= (r) = radius
Another "notion" for inverse sin than = sin^(-1) is =
= (sin arc A)
e^(lnx) =
= (x)
ln(e^x) =
= (x)
Define "reciprocal" of (x/x+1)
= (x+1/x)
Define - "ordered pairs"
= (x, y) = a single point on a coordinate plane
According to the - "Equation of a Circle" - define (x,y)
= (x, y) = any point on the circumference of a circle
Define "reciprocal" of (x/y)
= (y/x)
Inverse sin (-1) =
= -1/2(pi)
Inverse sin (0) =
= 0
cos(pi)/2 (radians) =
= 0
cos90 (degrees) =
= 0
cot 0 (degrees) =
= 0
csc0 (degrees) =
= 0
sin0 (degrees) =
= 0
tan0 (degrees) =
= 0
cos0 (degrees) =
= 1
csc(pi)/2 (radians) =
= 1
csc90 (degrees) =
= 1
sec0 (degrees) =
= 1
sin(pi)/2 (radians) =
= 1
sin90 (degrees) =
= 1
Inverse sin (1) =
= 1/2(pi)
Define "reciprocal" of 8
= 1/8
If given: log(x) what is the "common base" used
= 10 = log10(x)
Example of - Permutations w/ NO repetition - In the lock above, there are 10 numbers to choose from (0,1,2,3,4,5,6,7,8,9) and we choose 3 of them:
= 10 × 10 × ... (3 times) = 103 = 1,000 permutations
Triangles adds up to
= 180 (degrees)
Define - "Straight Angle"
= 180 (degrees) - (singular)
Define - Isosceles Triangle
= 2 equal sides - the 2 sides being the "LEGS" of the triangle and the "BASE" being UNEQUAL
Define - the "slope" of 2 - Parallel Line & - the "slope" of 2 - Perpendicular Line
= 2 parallel line's slopes = SAME = 2 perpendictular line's slopes = NEGATIVE RECIPROCAL : [(1/x) - (x/-1)]
Coordinate Plane = ______________ demential.
= 2D
List the 2 - Pythagorean Triple "groups" and explain the trick to finding all the pythagorean triple triangles
= 3-4-5 = multiply the entire group by (1-5) to find the 5 PT's from the group = 5-12-13 = multiply the entire group by (1 and 2) to find the 2 PT's from the group
What is x in log3(x) = 5
= 3^5 = 243 log(base)x = (y) (x) = (base)^(y)
1 radian = ______________ degrees
= 57 degrees
List the 5 other PT's that are not in either group
= 8-15-17 = 7-24-25 =20-21-29 =9-40-41 =11-60-61
Define - "periodic" in terms of trig functions
= ALL trig functions are "periodic" - meaning they when graphed trig functions are represented by a curve that goes in one full "period" (aka completion) - then it does it again
When should you - "rationalize the denominator" - when taking the accuplacer
= EVERY TIME - when there is a "root" or a (-) number - in the denominator
When solving a Trig Equation for (x) what should you remember to do first
= First = FACTOR = Second = (set each factored item = 0) = Third = (solve for x)
Define - "Reflex Angle"
= MORE - than 180 (degrees) - but LESS - than 360 (degrees) - (singular)
How many answers can - (inverse sin) - have
= ONLY (1) answer
State the - "Radius (r) Formula"
= Radius (r) = "square root all over" : [(x-h)^2 (y-k)^2]
Give the - "Equation of a Circle"
= [(r^2) = (x-h)^2 + (y-k)^2]
Describe/Define what a "one demential (1D) line" is In a 1D line, what two things need to be accounted for and explain how we can do this
= a horizontal or vertical line = (x=0) - horizontal - (look at the location of (x) on the coordinate plane) = (y=0) - vertical - (look at the location of (y) on the coordinate plane) = Distance and Midpoint: = horizontal = (D = ("absolute value" X2-x1)) = (M = (x1+x2)/2) = vertical = (D = ("absolute value" y2-y1)) = (M = (y1+y2)/2)
Define - Median
= a line drawn on a triangle - starting: from an angle - ending: in the middle (midpoint) of the angle's opposite side - ex: starts at angle A, ends in the middle of side a
What kind of a line is defined as - (y=mx)
= a line that passes through the origin
Define the - (Greek letter - "theta") Where does it start & end?
= an angle formed = ("theta") - ALWAYS starts on the - positive (+) x-axis and travels in the "counterclockwise" direction = ("theta") - can end & form an angle anywhere in (Q1, Q2, Q3, or Q4) as long as it started on (+x) and moves "counterclockwise"
Define - Scalene Triangle
= angles and sides all UNEQUAL
Define - "Supplementary Angles"
= angles that "add" up to = 180 (degrees) - (plural)
Define - "Complementary Angles"
= angles that "add" up to = 90 (degrees) - (plural)
Define what the term - "congruent angles" means
= angles that are the SAME in - (radians and degrees) - they DO NOT have to be going in the same direction - they DO NOT have to be on similar sized lines
Combinations vs. Permutations
= combinations - order does not matter = permutations - order does matter - think (p) = "position"
When drawing a trig function on a coordinate plane (x, y) what should we ALWAYS do first
= draw the base of the triangle along the (x) axis)
Describe what the "Standard Form of a Polynomial means"
= equation is ordered from (largest - smallest) according to the coefficients degrees
Define the - Point-Slope Form of a line What is usually given in the problem that triggers to use this specific form
= given = slope (m) and a point (x1, y1) *remember: the form of the line is based off what is given - "point-slope" = [m = (y - y1) / (x - x1)]
Define the - Slope-Intercept Form of a line What is usually given in the problem that triggers to use this specific form
= given = slope (m) and the y-intercept (b) *remember: the form of the line is based off what is given - "slope-intercept" = (y=mx+b)
How would you - "solve by graphing" these two lines: (2x+y=8) and (2x+3y=12)
= graph by using - "intercepts" = find the (x) & (y) intercept for the first line: - set (x) in the first equation to (x=0) - then solve for (y), so now you have (0,y) - which is the "y-intercept" - set (y) in the first equation to (y=0) - then solve for (x), so now you have (x,0) - which is the "x-intercept" - take the points (x,0) and (0,y) and graph the first line - repeat the steps above for the second line equation = now that you have two lines graphed you can find the - "point at which they meet " = [(P) = (x,y)] - ANSWER - you can check your answer by plugging it into the two given equations
Define - "radian": (by - "if you laid it on the circumference of a circle")
= if you laid "one radian" on the circumference of a circle and angle would be formed which is defined as - "one radian"
According to sketching trig functions - (sin & cos) - explain what these two graphs would look like: 1. (y=10sin4x) : - define the (4): 2. (y=(-7)sin(x/5)) : - define (x/5):
= in - (y=10sin4x) - the (4) before the (x) means that the graph is reaching 360 (degrees) 4X faster - so we would need to solve for the "period" = (360/4) = 90 (degrees) = its "period" - in - (y=(-7)sin(x/5)) - the (x) is being divided by the (5) - which means that the graph is "stretched out" 5X more than it would be in (y=sinx) - so we would need to solve for its "period" - [2(pi)/(1/5) = 10(pi)]
What is ALWAYS true about (r)
= it is ALWAYS "positive" (+)
When "graphing a linear inequality" what should you do first before even graphing
= moving (y) to the left hand side & everything else to the right
How do you - "rationalize the denominator"
= multiply BOTH - the denominator and numerator - by the denominator - then the denominator cancels out and you are left with the value of the multiplied numerator
Define in terms: loge(x) - base = (e)
= natural log - more commonly seen as = ln(x)
Define what the "x-intercept" is
= point of the (x) axis = (y=0)
Define what the "y-intercept" is
= point of the (y) axis = (x=0)
In a right triangle problem - (lets say we were given two sides) - how do we find the value of the third side
= pythagorean theorem - (a^2 + b^2 = c^2)
loga(m^r) = - base = (a)
= r ( loga m ) - base = (a)
What units are involved in trig functions
= radians (pi) = degrees
If a question asks for the inverse function of a function - how do we solve
= switch the variables (x) and (y) and solve for (y)
Before a "function" - can be defined as a "function" - what MUST happen
= the functions's graph must pass the "vertical line test" - meaning: you can draw a vertical line anywhere on the graph, if that line hits the graph in more than one spot, then the graph is NOT a function - if NOT = it has passed & is a function
Before an "inverse function" - can be defined as an "inverse function" - what MUST happen
= the inverse function's graph must pass the "vertical line test" AND the "horizontal line test" - meaning: you can draw a vertical and a horizontal line anywhere on the graph, if that line hits the graph in more than one spot, then the graph is NOT an inverse function - if NOT = it has passed & is an inverse function
If given a triangle is drawn a the coordinate plane - and we are given the values of - triangle sides: (r) and (y) - how do you find side (x) Once you have (x) then what do you also have
= use formula: - (x) = ("+, -") "square root all over" (r^2 - y^2) - to find (x) just use the (r) formula but isolate (x) to the left side = ALL - 6 Basic Trig Functions
Explain - "quadrants"
= when the two axes (x and y) cross they form 4 quadrants
"radical" over (x^2) is the same as
= x^(p/r) - (p) = power (2) - (r) = root (2) =(x)
ALL ABOUT TRIG:
STUDY, STUDY, STUDY!!!!
State the arithmetic sequence formula & define all variables
[an = a1 (n-1)d] a1 = the first term in the sequence an = the nth term at n position of series d = difference
State the equation of a circle & define all variables
r^2 = (x-h)^2 + (y-k)^2 (r) = radius (h,k) = the "center" of the circle at (x,y)