A–F

absolute value
Unit 4 Lesson 3

A number’s distance from zero on the number line.

The symbol means the absolute value of .

Recall that distance is always positive.

The diagram shows that and .

number line explaining absolute value x–2–2–2–1–1–1111222000
absolute value function
Unit 4 Lesson 3

A function that contains an algebraic expression within absolute value symbols. The absolute value parent function, written as:

an absolute value function on a graphx–3–3–3–2–2–2–1–1–1111222333y111222333000

Altitude of a triangle:

A perpendicular segment from a vertex to the line containing the base.

Altitude of a solid:

A perpendicular segment from a vertex to the plane containing the base.

altitude of triangles and cones marked ACDBHMGFEFDEJ

The height from the midline (center line) to the maximum (peak) of a periodic graph. Half the distance from the minimum to the maximum values of the range.

For functions of the form or , the amplitude is .

a trigonometric graph with labels for amplitude, midline and distance from minimum to maximumxyamplitudemidlinedistance fromminimum to maximum
angle of rotation in standard position
Unit 8 Lesson 3

To represent an angle of rotation in standard position, place its vertex at the origin, the initial ray oriented along the positive -axis, and its terminal ray rotated degrees counterclockwise around the origin when is positive and clockwise when is negative. Let the ordered pair represent the point where the terminal ray intersects the circle.

2 diagrams of circles with terminal rays. The first circle show a positive rotation, and the second shows a negative rotationinitial ray+positive rotationinitial ray-negativerotation
angles associated with circles: central angle, inscribed angle, circumscribed angle
Unit 2 Lesson 1, Unit 2 Lesson 4

Central angle: An angle whose vertex is at the center of a circle and whose sides pass through a pair of points on the circle.

central angle in trianglevertexcentralangle

Inscribed angle: An angle formed when two secant lines, or a secant and tangent line, intersect at a point on a circle.

inscribed angle in a circlevertexcenter of circleinscribed angle

Circumscribed angle: The angle made by two intersecting tangent lines to a circle.

circumscribed angle

Angular speed is the rate at which an object changes its angle in a given time period. It can be measured in . Typically measured in .

The distance along the arc of a circle. Part of the circumference.

Equation for finding arc length:

Where is the radius and is the central angle in radians.

A circle with a segment created from 2 radii
arc of a circle, intercepted arc
Unit 2 Lesson 1, Unit 2 Lesson 3

Arc: A portion of a circle.

Intercepted arc: The portion of a circle that lies between two lines, rays, or line segments that intersect the circle.

arc of a circlearcinterceptedarc
argument of a logarithm
Unit 5 Lesson 1

See logarithmic function.

A line that a graph approaches, but does not reach. A graph will never touch a vertical asymptote, but it might cross a horizontal or an oblique (also called slant) asymptote.

Horizontal and oblique asymptotes indicate the general behavior of the ends of a graph in both positive and negative directions. If a rational function has a horizontal asymptote, it will not have an oblique asymptote.

Oblique asymptotes only occur when the numerator of has a degree that is one higher than the degree of the denominator.

a diagram showing vertical asymptotes between curvesverticalasymptoteverticalasymptote
a diagram showing the oblique asymptote within a 1/x functionobliqueasymptote
a diagram showing the horizontal asymptote within a 1/x functionhorizontal asymptote
base of a logarithm
Unit 5 Lesson 1

See logarithmic function (logarithm).

bimodal distribution
Unit 10 Lesson 1

A bimodal distribution has two main peaks.

The data has two modes.

See also: modes.

a bimodal histogram2224446662020204040406060608080800002 modesbimodal distribution

A polynomial with two terms.

a binomial of (ax b)termtermaddition or subtraction
binomial expansion
Unit 6 Lesson 3

When a binomial with an exponent is multiplied out into expanded form.

Example:

Pascal’s triangle (shown) can be used to find the coefficients in a binomial expansion. Each row gives the coefficients to , starting with . To find the binomial coefficients for , use the row and always start with the beginning variable raised to the power of . The exponents in each term will always add up to . The binomial coefficients for are , , , , , and — in that order or

The first 6 rows of Pascal's triangle
central angle
Unit 2 Lesson 1

An angle whose vertex is at the center of a circle and whose sides pass through a pair of points on the circle.

central angle in trianglevertexcentralangle
Central Limit Theorem (CLT)
Unit 10 Lesson 7

This theorem gives you the ability to measure how much your sample mean will vary, without having to take any other sample means to compare it with.

The basic idea of the CLT is that with a large enough sample, the distribution of the sample statistic, either mean or proportion, will become approximately normal, and the center of the distribution will be the true parameter.

The point of concurrency of a triangle’s three medians.

centroidcentroid
chord of a circle
Unit 2 Lesson 1

A chord of a circle is a straight line segment whose endpoints both lie on the circle. In general, a chord is a line segment joining two points on any curve.

chord of a circle chordcenterof circle

A diameter is a special chord that passes through the center of the circle.

diameter of a circlediameter is a special chordcenterof circle
circle: equation in standard form; equation in general form
Unit 2 Lesson 10

The standard form of a circle’s equation is where , is the center and is the radius.

The general form of the equation of a circle has and and multiplied out and then like terms have been collected.

circle
circumcenter
Unit 1 Lesson 6

The point where the perpendicular bisectors of the sides of a triangle intersect. The circumcenter is also the center of the triangle’s circumcircle—the circle that passes through all three of the triangle’s vertices.

circumcenter
circumscribe
Unit 1 Lesson 6

To draw a circle that passes through all of the vertices of a polygon. The circle is called the circumcircle.

All of these polygons are inscribed in the circles.

circumscribe
clockwise / counterclockwise
Unit 8 Lesson 2

clockwise: Moving in the same direction, as the hands on a clock move.

counterclockwise: Moving in the opposite direction, as the hands on a clock move.

a clock with labels for counterclockwise and clockwise directions
cluster sample
Unit 10 Lesson 5

See sample.

common logarithm
Unit 5 Lesson 4

A logarithm with base , written , which is shorthand for .

a diagram showing a base 10 logarithmWhen the base is missing, it's 10.A base 10 logarithm is so“common,” it's not written.
composition of functions
Unit 9 Lesson 2, Unit 9 Lesson 4

The process of using the output of one function as the input of another function.

Replace with .

a digram showing g(x) as the input for the composition of functions f(g(x))
concurrent lines
Unit 1 Lesson 6

A set of two or more lines in a plane are said to be concurrent if they all intersect at the same point. Lines , , and are concurrent lines. They intersect at point .

Point is the point of concurrency.

concurrent lines
cone: right, oblique
Unit 3 Lesson 1

A 3-D figure that has length, width, and height. A cone has a single flat face (also called its base) that’s in the shape of a circle. The body of the cone has curved sides that lead up to a narrow point at the top called a vertex or an apex.

A right cone has a vertex that is directly over the center of the base. In an oblique cone the vertex is not over the center of the base.

cone: right, oblique vertexbasebaseradiusvertexradiusrightangleright angle
conjugate pair
Unit 6 Lesson 6

A pair of numbers whose product is a nonzero rational number.

The numbers and form a conjugate pair.

The product of , a rational number.

control group
Unit 10 Lesson 6

The control group is used in an experiment as a way to ensure that your experiment actually works. It is a baseline group that receives no treatment or a neutral treatment. To assess treatment effects, the experimenter compares results in the treatment group to results in the control group.

convenience sample
Unit 10 Lesson 5

See sample.

coterminal angles
Unit 8 Lesson 3

Two angles in standard position that share the same terminal ray but have different angles of rotation.

The diagram shows a positive rotation () of ray from through to . The dotted arc () shows a negative rotation of ray from through to .

The two angles are coterminal.

a circle diagram showing a shared terminal and coterminal ray with the angle of rotation for each.initial ray
cross-section of a solid
Unit 3 Lesson 3

The face formed when a three-dimensional object is sliced by a plane.

cross-section of a solid

a polynomial of degree . The parent function is .

cyclic polygon
Unit 2 Lesson 3

A polygon that can be inscribed in a circle. All of the vertices of the polygon lie on the same circle.

cyclic polygon
cylinder: right, oblique
Unit 3 Lesson 1

In a right cylinder, the sides make a right angle with the two bases.

cylinder: right

In an oblique cylinder, the bases remain parallel to each other, but the sides lean over at an angle that is not .

cylinder: obliqueNot 90°
decomposition of functions
Unit 9 Lesson 5

Undoing a composite function in terms of its component parts.

The decomposition of f(g(x))=3sin x-1 where f(x)=3x-1 and g(x)=sin x
degree of a polynomial
Unit 6 Lesson 2

The power of the term that has the greatest exponent.

The degree of the polynomial 5x^3 8x^2-9x 11 is 3.exponentThe degree is 3.

In science, density describes how much space an object or substance takes up (its volume) in relation to the amount of matter in that object or substance (its mass). If an object is heavy and compact, it has a high density. If an object is light and takes up a lot of space, it has a low density.

Density can also refer to how many people are crowded into a small area or how many trees are growing in a small space or a large space. In that sense it is a comparison of compactness to space.

densitymore dense
disc or disk
Unit 3 Lesson 4

See solid of revolution.

distribution curve
Unit 10 Lesson 1

A graph of the frequencies of different values of a variable in a statistical distribution.

See division.

a diagram of long division

With polynomials:

long division with functions
division algorithm for polynomials
Unit 6 Lesson 4

If and are polynomials such that the degree of the degree of , there exists unique polynomials and such that

the labeled diagram for f(x) over d(x)=q(x) r(x) over d(x)dividenddivisorquotientremainderdivisor

where the degree of the degree of .

If , then divides evenly into , making a factor of .

See division.

The set of all possible -values which will make the function work and will output real -values. A continuous domain means that all real values of included in an interval can be used in the function.

Choosing a smaller domain for a function is called restricting the domain. The domain may be restricted to make the function invertible.

Sometimes the context will restrict a domain.

Other terms that refer to the domain are input values and independent variable.

edge / face / vertex of a 3-D solid
Unit 3 Lesson 3

Edge: The line that is the intersection of two planes.

Face: A flat surface on a -D solid.

Vertex: (pl. vertices) Each point where two or more edges meet; a corner.

edge / face / vertex of a 3-D solidfacevertexedge
elapsed time
Unit 8 Lesson 2

The time that has passed since the position of the rider was at the farthest right position on the wheel (standard position with initial ray along the positive -axis).

end behavior
Unit 6 Lesson 7

The behavior of a function for -values that are very large (approaching ) and very small (approaching ).

In an experiment, researchers separate the participants into a control group and a treatment group, and manipulate the variables to try to determine cause and effect. One of the key components of an experiment is that individuals are assigned to treatments and the results are compared.

extraneous solution
Unit 7 Lesson 7

A derived solution to an equation that is invalid in the original equation.

Factor (verb): To factor a number means to break it up into numbers that can be multiplied together to get the original number.

Example: Factor : , or , or

Factor (noun): a whole number that divides exactly into another number. In the example above , , , and are all factors of

In algebra factoring can get more complicated. Instead of factoring a number like , you may be asked to factor an expression like .

The numbers and and the variables and are all factors. The variable is a factor that occurs twice.

factor of a polynomial
Unit 6 Lesson 5

is a factor of the polynomial function if dividing by leaves no remainder.

frequency distribution curve, frequency polygon
Unit 10 Lesson 1

A frequency distribution curve “smooths out the bumps” in a frequency distribution with a theoretical curve that shows how often an experiment will produce a particular result.

a normal histogram with a frequency distribution curve Frequency distribution curve

The part of a solid such as a pyramid or a cone that remains after cutting off a top portion with a plane parallel to the base.

frustumfrustum

G–L

horizontal asymptote
Unit 7 Lesson 1

A line that the graph approaches but does not reach. Exponential functions have a horizontal asymptote. The horizontal asymptote is the value the function approaches as either gets infinitely larger or smaller. An asymptote is an imaginary line, but it is often shown as a dotted line on the graph.

As gets smaller, the graph of approaches the horizontal asymptote, .

the graphs of f(x)=2^x and its horizontal asymptote of y=0x–10–10–10–5–5–5555y–5–5–5555101010000

As gets larger, the graph of approaches the horizontal asymptote, .

the graphs of f(x)=2^-x and its horizontal asymptote of y=0x–5–5–5555101010y–5–5–5555101010000

As gets smaller, the graph of approaches the horizontal asymptote, .

the graphs of f(x)=2^x-3 and its horizontal asymptote of y=-3x–10–10–10–5–5–5555y–5–5–5555101010000

See also asymptote.

horizontal shift
Unit 5 Lesson 2

See transformations on a function.

The point of intersection of the angle bisectors in a triangle is the incenter. Each point on the angle bisector is equidistant from the sides of the angle.

The point at which all the three angle bisectors meet is the center of the incircle.

incenteranglebisectorsincenterincircle
independent variable / dependent variable
Unit 4 Lesson 5

In a function, the independent variable is the input to the function rule and the dependent variable is the output after the function rule has been applied. Also called ordered pairs, coordinate pairs, input-output pairs. The domain describes the independent variables and the range describes the dependent variables.

diagram showing showing the independent and dependent variables in the function f(x)=5(x)-7
inference (statistics)
Unit 10 Lesson 7

The use of results from a sample to draw conclusions about a population.

initial ray
Unit 8 Lesson 3

See angle of rotation in standard position.

input-output pair
Unit 4 Lesson 5

Input and output pairs are related by a function rule. Also called ordered pairs, coordinate pairs, independent and dependent variables. If is an input-output pair for the function , then is the input, is the output and .

A diagram representing an input/output pair for f(x)=5x-7; x=3
inscribed angle
Unit 2 Lesson 1

See angles associated with circles.

inscribed in a circle
Unit 1 Lesson 6
inscribed in a circle
interval of increase or decrease
Unit 4 Lesson 6

In an interval of increase, the -values are increasing. In an interval of decrease, the -values are decreasing. When describing an interval of increase or decrease, the -values that correspond to the increasing or decreasing -values are named.

a diagram showing increasing, decreasing and constant intervalsx–2–2–2222444666y–8–8–8–6–6–6–4–4–4–2–2–2222444000
interval of plausible values
Unit 10 Lesson 8

A range of likely values for the population parameter, based on a sample statistic.

inverse function
Unit 4 Lesson 5
several diagrams that show different representations for the inverse of f(x) using a table, graph, and equations.
invertible function
Unit 4 Lesson 6

A function is invertible if and only if its inverse is defined and is a function.

graphs comparing the function of x^3 and x^2 and their inverse graphs

If a function is not invertible across its entire domain, the domain can be restricted so that it is invertible.

See one-to-one function.

A quadrilateral with two pairs of congruent, adjacent sides.

kite
leading coefficient
Unit 6 Lesson 7

The number written in front of the variable with the largest exponent.

a diagram showing the polynomial 2x^5 7x^2-13 has coefficients of 2, 7, and -13 with a leading coefficient of 2
linear function
Unit 4 Lesson 5
several diagrams modeling linear functions, including tables and graphs. Equations for linear functions are defined as y=mx b, y=m(x-x1) y1, and Ax By=Clinear functionslope-intercept formm = slopeb = y-interceptpoint-slope formyou need slope and a point:standard formdomain: all real numbersrange: all real numbersunless restricted. unless restricted.graph is a linerate of change (slope) is constant1st difference is constantThe function can increase,decrease, or remain constant. 2122
logarithmic function (logarithm)
Unit 4 Lesson 7

The inverse of an exponential function is called a logarithmic function.

If , then .

The base of the log and the base of the exponent match. A logarithm has 3 parts: the argument, the base, and the answer.

a diagram showing the parts of a logarithmic function.

M–R

margin of error
Unit 10 Lesson 8

The margin of error is a statistic expressing the amount of random sampling error in the results of a survey. The larger the margin of error, the less confidence one should have that a poll result will reflect the result of a survey of the entire population.

maximum / minimum
Unit 4 Lesson 6

Maximum is the point at which a function’s value is greatest.

Minimum is the point at which a function’s value is the least.

A cubic function with points showing the maximum and minimum.–2–2–2–1–1–1111222–1–1–1111000maximumminimum
midline of a trigonometric function
Unit 8 Lesson 4

A horizontal axis that is used as the reference line about which the graph of a periodic function oscillates. The equation of the midline is , where is the vertical translation of the function.

the diagram of the sine function with the amplitude, midline, and distance from maximum to minimum labeledxyamplitudemidline

The measure of central tendency for a one-variable data set that is the value(s) that occurs most often.

Types of modes include: uniform (evenly spread- no obvious mode), unimodal (one main peak), bimodal (two main peaks), or multimodal (multiple locations where the data is relatively higher than others).

a histogram with a uniform distribution111222333444555202020404040606060808080000uniform distribution
a histogram with a unimodal distribution222444666888202020404040606060808080100100100000unimodal distributionone mode
a histogram with a bimodal distribution111222333444555202020404040606060808080000bimodal distribution2 modes
a histogram with a multimodal distribution222444666888202020404040606060808080100100100000multimodal distributionmany modes

See measures of central tendency.

multiplicity
Unit 6 Lesson 5

The multiplicity of each zero is the number of times that its corresponding factor appears. If , the zeros or roots of are multiplicity and multiplicity .

The multiplicity of a root affects the shape of the graph of a polynomial. If a root of a polynomial has odd multiplicity, the graph will cross the -axis at the root.

Graph of

multiplicity and multiplicity

the graph of p(x)=(x 2)(x-1)(x-1)(x-1) with the x intercepts of -2 and 1 with an odd multiplicity labeledx–4–4–4–2–2–2222y–8–8–8–7–7–7–6–6–6–5–5–5–4–4–4–3–3–3–2–2–2–1–1–1111222000odd multiplicity
the graph of q(x)=(x-2)(x-1)(x-1) with the x intercepts of -2 and 1 with an even multiplicity labeledx–2–2–2222y–2–2–2222444000even multiplicity

If a root of a polynomial has even multiplicity, the graph will touch the -axis at the root but will not cross the -axis.

Graph of

multiplicity and multiplicity

natural logarithm
Unit 5 Lesson 5

A logarithm with base , written , which is shorthand for .

normal distribution
Unit 10 Lesson 1

An arrangement of a data set in which most values cluster in the middle of the range and the rest taper off symmetrically toward either extreme. Features of a normal distribution include:

  1. A normal distribution is symmetric.

  2. The mean, median, and mode are equal in a normal distribution.

  3. The frequency curve of a normal distribution is symmetric.

  4. A normal curve has points of inflection at standard deviation from the mean.

  5. A normal distribution has a single mode.

of the distribution will be standard deviations from the mean. of the distribution will be within standard deviations from the mean. of the distribution will be within standard deviations from the mean.

a normal distribution curve
observational study
Unit 10 Lesson 6

a study in which the researcher simply observes the subjects without interfering.

In this type of study, researchers observe the behavior of the participants/subjects without trying to influence it in any way so they can learn about the parameter of interest.

one-to-one function
Unit 4 Lesson 6

A function is said to be one-to-one if no two elements of the domain of correspond to the same element in the range of . If no horizontal line intersects the graph of the function in more than one point, the function is one-to-one.

The function is a one-to-one function.

It is an invertible function.

The graph of x^3 with a dotted line of y=2–3–3–3–2–2–2–1–1–1111222333–3–3–3–2–2–2–1–1–1111222333000

The function is NOT a one-to-one function because each -value occurs twice for different elements of the domain, except at the vertex. It is not an invertible function.

the graph of x^2 with a dotted line of y=1–2–2–2–1–1–1111222–1–1–1111222000

A number that describes a characteristic of a population (such as the mean or the standard deviation).

parameter of interest (statistics)
Unit 10 Lesson 6

A parameter of interest is what your data is focused on.

The thing we want to know about the population.

A number, such as the mean or standard deviation, that describes an entire population. Any numerical quantity that characterizes a given population or some aspect of it. This means the parameter tells us something about the whole population.

The most basic form of a function. A parent function can be transformed to create a family of functions.

Pascal’s triangle
Unit 6 Lesson 3

An array of numbers forming a triangle named after a famous mathematician Blaise Pascal. The top number of the triangle is , as well as all the numbers on the outer sides. To get any term in the triangle, you find the sum of the two numbers above it. The top number is considered row of the triangle.

The first 6 rows of Pascal's triangle
period of a cyclical function
Unit 8 Lesson 4

The time it takes for one complete cycle of a cyclical motion to occur. The diagram shows the graph of . The graph begins at . At the graph begins to repeat because it has completed one cycle. The period is .

the graph of sine of xxπππy000
period of rotation
Unit 8 Lesson 2

The period of rotation is the amount of time for one complete rotation of the Ferris wheel.

piece-wise defined function
Unit 4 Lesson 1

A function which is defined by two or more equations, each valid on its own interval. A piecewise function can be continuous or not.

Each equation in a piece-wise defined function is called a sub-function.

continuous piecewise function–4–4–4–2–2–2222000continuous3 equationsintervals
discontinuous piecewise function–4–4–4–2–2–2222000discontinuous3 equationsintervals
point of concurrency
Unit 1 Lesson 6

See concurrent lines.

point of inflection
Unit 10 Lesson 1

A point on a curve where the curve changes from being concave down to concave up or vice versa.

the graph of a cubic function with labels that show where the graph is concave downward, concave upward, and the inflection pointx–3–3–3–2–2–2–1–1–1111222y–1–1–1111222333444000concave downwardconcave upwardinflection point

In the normal curve it is one standard deviation away in either direction from the mean.

a normal distribution curve from mu-3 sigma to mu 3 sigma
polar coordinates
Unit 8 Lesson 6

A method of representing points in a plane with ordered pairs in the form where is the distance of the point from the origin and is the angle of rotation of the point from the positive -axis.

polynomial function
Unit 6 Lesson 2

A function of the form:

where all of the exponents are positive integers and all of the coefficients are constants.

population (in statistics)
Unit 10 Lesson 5

The group of individuals you want to study in order to answer your research question

population mean
Unit 10 Lesson 7

The population mean is an average of a group characteristic or item of interest.

The symbol ‘' represents the population mean.

population parameter
Unit 10 Lesson 5

A population parameter is the actual value of a statistical measure such as the mean or standard deviation for a given population.

population proportion
Unit 10 Lesson 7

A population proportion is a fraction of the population that has a certain characteristic. The letter is used for the population proportion. It can be written as a fraction e.g. or as a decimal .

prism: right, oblique
Unit 3 Lesson 1

Prism: Also called a polyhedron.

A solid object with two identical ends and flat sides. The ends (bases) are parallel. The shape of the ends gives the prism its name, such as triangular prism or square prism. The sides are parallelograms.

prism: right, obliqueA right prism: The joining edges and faces areperpendicular to the base faces.An oblique prism: The joining edges and faces are not perpendicular to the base faces.

The result of multiplication is a product.

a diagram showing (x a)(x b)=x^2 ax bx b^2

A 3-D shape that has a base, which can be any polygon, and three or more triangular faces that meet at a point called the apex.

pyramidbaseEach faceis a triangleapexThis is a right pyramid
quadrantal angle
Unit 8 Lesson 3

An angle in standard position with terminal side on the -axis or -axis. Some examples are the angles located at , , , , .

A blank graph with each axis labeled as 0°, 90°, 180°, 270°, and 360°y
quadratic equations
Unit 4 Lesson 6

An equation that can be written in the form

Standard form:

Example:

Factored form:

Vertex form:

Recursive form:

(Note: Recursive forms are only used when the function is discrete.)

quadratic function
Unit 4 Lesson 6
Several diagrams representing a quadratic function, including an area model, growing steps, a 2nd difference table, and parabolic graphs.quadratic functionvertex formfactored formstandard formgraph is a parabola

A quantity is an amount, number, or measurement. It answers the question “How much?”

See division.

A unit of measure for angles. One radian is the angle made at the center of a circle by an arc whose length is equal to the radius of the circle.

The ratio of the length of an intercepted arc to the radius of the circle on which that arc lies.

A circle with the radius labeled and an intercepted arc that has the same length as the radius

A radical is the mathematical inverse of an exponent. This is the symbol for a radical: . It is also called a square root symbol, but that is only when it’s asking for the number that when multiplied by itself gives you the number inside the . (The is not usually written.) It can be used to indicate a cube root , a fourth root , or higher. (A root that is higher than is written in.)

range of a function
Unit 4 Lesson 6

All the resulting -values obtained after substituting all the possible -values into a function. All of the possible outputs of a function. The values in the range are also called dependent variables.

rate of change (slope)
Unit 4 Lesson 5

A rate that describes how the output of a function changes in relation to the input.

Functions are defined by their rates of change.

In a linear function, if is the independent variable and is the dependent variable, the rate of change equals and is called the slope.

An exponential function has an exponential rate of change.

A quadratic function has a linear rate of change.

A cubic has a quadratic rate of change.

rational function
Unit 7 Lesson 3

A function is called a rational function if and only if it can be written in the form where and are polynomials in and is not the zero polynomial.

reasoning – deductive/inductive
Unit 1 Lesson 3

Two Types of Reasoning

Inductive reasoning:

from a number of observations, a general conclusion is drawn.

Deductive reasoning:

from a general premise (something we know), specific results are predicted.

Observations

General Premise

Each time I make two lines intersect, the opposite angles are congruent. I have tried this 20 times and it seems to be true.

Conclusion:

Opposite angles formed by intersecting lines are always congruent.

reasoning – deductive/inductive1234

Given: Angles 1, 2, 3, and 4 are formed by two intersecting lines.

Prove: Opposite angles formed by intersecting lines are always congruent.

reasoning – deductive/inductive
rectangular coordinate system
Unit 8 Lesson 6

Also called the Cartesian coordinate system, it’s the two-dimensional plane that allows us to see the shape of a function by graphing.

Each point in the plane is defined by an ordered pair. Order matters! The first number is always the -coordinate; the second is the -coordinate.

The coordinate plane with all quadrants labeled and the points A(2,3), B(-2,2), D(2,-1), and E (-2,-3)x–12–12–12–11–11–11–10–10–10–9–9–9–8–8–8–7–7–7–6–6–6–5–5–5–4–4–4–3–3–3–2–2–2–1–1–1111222333444y–4–4–4–3–3–3–2–2–2–1–1–1111222333444000AAABBBCCCDDDQ IIQ IQ IVQIII
reference triangle
Unit 8 Lesson 1

A right triangle that is drawn connecting the terminal ray of an angle in standard position to the -axis. In the diagram, is the reference triangle.

A right triangle in Quadrant II made with the x axis and a terminal ray and an angle of rotationreference triangleinitial ray
reflection
Unit 5 Lesson 2

A reflection is a rigid transformation (isometry). In a reflection, the pre-image and image points are the same distance from the line of reflection; the segment connecting corresponding points is perpendicular to the line of reflection.

The orientation of the image is reversed.

a reflection of a polygon over a line

See division.

remainder theorem for polynomials
Unit 6 Lesson 4

When a polynomial f is divided by , the remainder equals .

Why is this true? The division algorithm can be used to prove the remainder theorem.

a diagram showing the remainder theorem for polynomials
restricted domain
Unit 9 Lesson 6

Limiting the domain of a function so that its inverse is also a function.

roots: real and imaginary
Unit 6 Lesson 5

The solutions of an equation in the form .

S–X

A part of a population selected to represent the entire population. Sampling is the process of selecting and studying a sample from a population in order to make conjectures about the entire population. A good sample represents the target population.

Types of samples:

simple random sample - one in which every possible sample (of the same size) has an equal chance of being selected from the target population.

systematic sample – A method of choosing a random sample from among a larger population. The process of systematic sampling typically involves first selecting a fixed starting point in the larger population and then obtaining subsequent observations by using a constant interval between samples taken.

cluster sample – With cluster sampling, the researcher divides the population into separate groups, called clusters. Then, a simple random sample of clusters is selected from the population. The researcher conducts his analysis on data from the sampled clusters.

stratified random sample – With stratified sampling, the researcher divides the population into separate groups, called strata. Then, a probability sample (often a simple random sample ) is drawn from each group.

convenience sample – made up of people who are easy to reach.

volunteer sample - made up of people who self-select into the survey.

sample mean
Unit 10 Lesson 7

The sample mean is simply the average of all the measurements in the sample. If the sample is random, then the sample mean can be used to estimate the population mean. The symbol for sample mean is ( bar)

sample proportion
Unit 10 Lesson 7

the proportion of people from the sample who fell into a certain group

The symbol is ( - hat).

sample statistic
Unit 10 Lesson 7

A statistic or sample statistic is any quantity computed from values in a sample that is used for a statistical purpose. It’s a piece of information you get from a fraction of a population.

scale factor
Unit 3 Lesson 1

The ratio of any two corresponding lengths in two similar geometric figures.

scale factor
secant line (in a circle), tangent line
Unit 1 Lesson 6, Unit 2 Lesson 1

Secant line: A line that intersects a circle at exactly two points.

Tangent line: A line that intersects a circle at exactly one point.

secant line (in a circle), tangent lineAAABBBCCCDDDsecant linetangent line

The part of a circle enclosed by two radii of a circle and their intercepted arc.

A pie-shaped part of a circle.

sectorAAABBBCCCsector
segment of a circle
Unit 2 Lesson 6

A segment of a circle is a region in a plane that is bounded by an arc of a circle and by the chord connecting the endpoints of the arc.

segment of a circlesegment of a circle
simple random sample
Unit 10 Lesson 5

See sample.

skewed distribution
Unit 10 Lesson 1

When most data is to one side leaving the other with a ‘tail’. Data is skewed to side of tail. (if tail is on right side of data, then it is skewed right).

a histogram with a distribution that is skewed rightxskewed rightmodemedianmean40608020123456780
a histogram with a distribution that is skewed left111222333444555666777888202020404040606060808080000skewed leftmodemedianmean
slant asymptote
Unit 7 Lesson 4

See asymptote.

A linear function has a constant slope or rate of change. You can count the slope of a line on a graph by counting how much it changes vertically each time you move one unit horizontally. A move down is negative and a move to the left is negative.

If you know two points on the graph, you can use the slope formula. Given two different points and

is the symbol for slope.

a straight line going through the point (0,-1) that has labels along the line of up 2 and right 1. –3–3–3–2–2–2–1–1–1111222333–3–3–3–2–2–2–1–1–1111222333000
solids of revolution
Unit 3 Lesson 4

A 3-D object formed by spinning a 2-D figure about an axis.

A disk is a slice of the solid of revolution. Each disk’s face is a circle.

A washer is a slice of a hollow solid of revolution. Its face is a circle with a hole in the center.

solids of revolutiondisk
special right triangles
Unit 8 Lesson 9

There are two special right triangles. They are special because they can be solved without using trigonometry.

two 45°-45°-90°right triangles with their sides labeled45°45°45°45°If hypotenuse is known (x), then side is45 - 45 right triangleIf side lengths are known (x),then the hypotenuse is
three 30°-60°-90°right triangles with their sides labeled60°30°30°60°30°60°If side opposite 60° is known (x), then hypotenuse isand side opposite 30° isand the side opposite 30° isIf hypotensue is known (x),then side opposite of 60° is
standard deviation
Unit 10 Lesson 1

A number used to tell how measurements for a group are spread out from the average (mean), or expected value. A low standard deviation means that most of the numbers are close to the average. A high standard deviation means that the numbers are more spread out. Symbol for standard deviation . (sigma)

standard normal distribution
Unit 10 Lesson 3

The standard normal distribution is a normal distribution with a mean of zero and standard deviation of 1. The standard normal distribution is centered at zero and the degree to which a given measurement deviates from the mean is given by the standard deviation.

* normal distributions do not necessarily have the same means and standard deviations

stratified random sample
Unit 10 Lesson 5

See sample.

sub-function
Unit 4 Lesson 1

See piece-wise defined function.

symbols for sample statistics and corresponding population parameters
Unit 10 Lesson 3

Sample Statistic

Population Parameter

Description

number of members of sample or population

-bar”

“mu”

mean

“sigma”

standard deviation

“rho”

coefficient of linear correlation

-hat”

proportion

systematic sample
Unit 10 Lesson 5

See sample.

terminal ray or side
Unit 8 Lesson 3

The side of an angle in standard position that is not on the positive -axis but has an endpoint at the origin or center of rotation.

a circle with the terminal ray, and initial ray labeled
transformations on a function (non-rigid)
Unit 5 Lesson 2

A dilation is a nonrigid transformation because the shape changes in size. It will make the function change faster or slower depending on the value of . If , it will grow faster and look like it has been stretched. If , the function will change more slowly and will appear to be fatter. A dilation is also called a vertical stretch.

Untitledx–4–4–3–3–2–2–1–11122334455y–2–2–1–1112233445500
transformations on a function (rigid)
Unit 5 Lesson 2

A shift up, down, left, or right, or a vertical or horizontal reflection on the graph of a function is called a rigid transformation.

Vertical shift

Up when

Down when

The vertical shift of a parabolax–4–4–4–3–3–3–2–2–2–1–1–1111y–1–1–1111222333000

Horizontal shift

Left when

Right when

the horizontal shift of a parabolax–3–3–3–2–2–2–1–1–1111222333444y–2–2–2–1–1–1111222333000

Reflection

reflection over the -axis

The reflection of a parabola over the x axisx–1–1–1111y–1–1–1111000

reflection over the -axis

the reflection of a cubic function over the y axisx–1–1–1111y–1–1–1111000

A dilation is a nonrigid transformation. It will make the function changes faster or slower depending on the value of . If , it will grow faster and look like it has been stretched. If , the function will grow more slowly and will appear to be fatter.

treatment group
Unit 10 Lesson 6

The treatment group consists of participants who receive the experimental treatment whose effect is being studied.

The control group consists of participants who do not receive the experimental treatment being studied.

trigonometric functions
Unit 8 Lesson 3

Right triangle trigonometry can be extended to define trigonometric functions for angles of rotation of any value, including negative values. To do so, a standard position for an angle of rotation is defined: locate the vertex of the angle of rotation at the origin of a Cartesian coordinate system, with the initial ray pointed along the positive -axis. A counter-clockwise rotation is considered positive while a clockwise rotation is considered negative. With this new definition of the trigonometric functions, trigonometry can be applied to periodic behavior.

a circle with the terminal ray, and initial ray labeled
trigonometric identities
Unit 8 Lesson 3

Statements that are true for all values of (theta).

Tangent and Cotangent Identities

 

Reciprocal Identities

Pythagorean Identities

Even/Odd Formulas

Periodic Formulas

If is an integer,

Double Angle Formulas

Sum and Difference Formulas

If is an angle in degrees and is an angle in radians, then:

Definitions of the Inverse Trigonometric Functions

Domain:

Range:

the graph of the inverse sine function–2–2–2–1–1–1111222–π–π–π–π / 2–π / 2–π / 2π / 2π / 2π / 2πππ000

Domain:

Range:

the graph of the inverse cosine function–2–2–2–1–1–1111222–π–π–π–π / 2–π / 2–π / 2π / 2π / 2π / 2πππ000

Domain:

Range:

the graph of the inverse tangent function–3–3–3–2–2–2–1–1–1111222333–π–π–π–π / 2–π / 2–π / 2π / 2π / 2π / 2πππ000

A polynomial with three terms.

a diagram showing ax^2 bx c has 3 terms3 terms

See mode(s).

unit circle
Unit 8 Lesson 8

A circle with radius of one unit. The equation of a unit circle with center is .

The unit circle is a useful tool when studying trigonometric functions.

  • Radian measure is the ratio . On the unit circle , so the radian measure is the arc length.

  • Sine is the ratio . On the unit circle , so the sine is the -coordinate.

  • Cosine is the ratio . On the unit circle , so the cosine is the -coordinate.

Example: In the unit circle shown, point is defined by the coordinates . Since , is and is . The arc length is or .

the unit circle with a 30-60-90 triangle shown and labeled
vertical asymptote
Unit 5 Lesson 2, Unit 7 Lesson 1

See asymptote.

vertical height
Unit 8 Lesson 1

The perpendicular distance from the ground up to a designated position.

vertical shift
Unit 5 Lesson 2

See transformations on a function (rigid).

vertical stretch
Unit 5 Lesson 2

See transformations on a function (non-rigid).

volunteer sample
Unit 10 Lesson 5

See sample.

A washer is a slice of a hollow solid of revolution. Its face is a circle with a hole in the center.

washerwasher
x-intercept
Unit 6 Lesson 5

The point(s) where a line or a curve cross the -axis. The -value of the point will be . A non-horizontal line will only cross the -axis once. A curve could cross the -axis several times.

a line passing through the points (-5,0) and (0,2)x–6–6–6–4–4–4–2–2–2y222000(-5, 0)(-5, 0)(-5, 0)
a parabola with a vertex at (-1,-4) passing through the points (-3,0) and (1,0)x–4–4–4–2–2–2222y–4–4–4–2–2–2222000(-3, 0)(-3, 0)(-3, 0)(1, 0)(1, 0)(1, 0)

Y–Z

The number of standard deviations that a given -value lies from the mean in a normal distribution. The formula for transforming a data point from any normal distribution to a standard normal distribution:

zeros (of a function)
Unit 6 Lesson 5

The values of the independent variable (x-values) that make the corresponding values of the function (-values) equal to zero. Real zeros correspond to -intercepts of the graph of a function.