Starting with Parent Functions MathBitsNotebook.com Topical Outline | Algebra 1 Outline | MathBits' Teacher Resources Terms of Use   Contact Person: Donna Roberts

In Algebra 1, we examine a wide range of functions:
constant, linear, quadratic, cubic, exponential, square root, and absolute value functions,
which can all serve as parent functions to generate new familty functions.

Recognizing parent functions will give you a head-start when working with transformations.

Let's take a look at our parent functions, and some of their offspring.

Parent Function	Parent Function Graph	A Child Function Graph
Linear y = x Child: y = -2x + 3 Features: a straight line
The Constant function, y = b, is a linear function whose slope = 0. It is a "child" of the Linear Function. It is a horizontal line.
Quadratic y = x2 Child: y = x2 - 6x + 9 Features: parabola U shape
Cubic y = x3 Child: y = x3 - 2x2 - x + 2 = (x - 2)(x2 - 1) Features: snake-like, crosses x-axis
Exponential y = bx graphed: y = 2x Child: y = (½)x + 2 Features: horizontal asymptote
Square Root Child: Features: dot point at one end, restricted domain
Absolute Value y = | x | Child: y = | x - 2 | - 4 Features: "V" shape

Children inherit features from their parents.
Knowing the shapes and features of the parent functions will assist
in understanding the transformations that create their children.

What about piece-wise defined functions and step functions?

Piece-wise defined functions are a combination of two or more equations over a specified domain. They are a "blending" of various functions where the overall graph is not the direct descendant of only one parent. "Piece-wise" is more of a "format" for expressing the "parts" of the function, rather than the result of a defined "parent".

Step functions are specific piece-wise defined functions in which every piece is a horiszontal line segment (or a point, or a horizontal ray). Like the piece-wise functions, the title "step function" represents a generalizerd "pattern" of finite horizontal linear equations.
They could be "described" as a series of segmented "constant" functions.
But there is not "one" specific defined "parent" step function used to create all other step functions.
There is, however, one specific case of a well known step function that can act as a "parent" that we will investigate in the table below.

Parent Function	Parent Function Graph	A Child Function Graph
Step Function (has a "pattern" not a "parent") Child of the pattern: Features: Finite horizontal (linear) portions; staircase; in piece-wise format	No generalized parent function. The "pattern" is that the graph will consist only of horizontal line segments (or a point or ray), appearing at different y-values along the graph.	Example of a step function (not a true "child")
Greatest Integer (a specific "named" step function that is a parent) y = [ x ] Child: y = [ x ] + 2 Features: equal length, equal height, staircase appearance	Greatest Integer Function y = [ x ]	Child: y = [ x ] + 2
Piece-Wise Defined (has a "format" not a "parent") Child of the format: Features: graph is split into "parts", continuous or discontinuous	No generalized parent function. A piecewise-defined function is a function which uses a combination of equations over the intervals of its domain. It is a format for expressing the parts of the function.	Example of a piece-wise function (not a true "child")