Knowt

Rating

0.0(0)

undefined Flashcards

0.0(0)

Studied by 0 people

Parent Functions

Linear Function

f(x) = x

x	y
-2	-2
-1	-1
0	0
1	1
2	2

Domain: {x E R}

Range: {y E R}

Quadratic Function

f(x) = x²

x	y
-2	4
-1	1
0	0
1	1
2	4

Domain: {x E R}

Range: {y E R/0 ≤ y}

Square Root Function

f(x) = √x

x	y
0	0
1	1
4	2

Domain: {x E R/0 ≤ x}

Range: {y E R/0 ≤ y}

Reciprocal Function

f(x) = 1/x

x	y
-2	-1/2
-1	-1
-0.5	-2
0.5	2
1	1
2	1/2

Domain: {x E R/x ≠ 0}

Range: {y E R/y ≠ 0}

Asymptote: x = 0, y = 0

Absolute Value Function

f(x) = |x|

x	y
-2	2
-1	1
0	0
1	1
2	2

Domain: {x E R}

Range: {y E R/0 ≤ y}

Cubic Function

f(x) = x³

x	y
-2	-8
-1	-1
0	0
1	1
2	8

Domain: {x E R}

Range: {y E R}

Transformations of Parent Functions

Transformed functions: f(x) = a(k(x-d)) + c

Vertical Stretch: a
- By a factor of….
- If negative, reflection in the x axis
Horizontal Stretch: k
- Always 1/k (flipped)
- By a factor of….
- If negative, reflection in the y axis
Vertical Translation: c
- if positive, moves up
- If negative, moves down
Horizontal Translation: d
- Always the opposite sign of what it is in the brackets (sign is flipped)
- If positive in bracket (so negative alone), then it moves left ( <-- )
- If negative in bracket (so positive alone), then it moves right ( --> )

Mapping

Draw the parent functions’ table of values
Create mapping notation using:

Mapping Notation: ((1/k)x + d, ay + c)

Apply mapping notation to the parent function and graph (following BEDMAS, order of operations)

Combinations of Transformations

Quadratic	g(x) = a(k(x-d))² + c
Reciprocal	g(x) = a(1/(k(x-d)) + c
Cubic	g(x) = a(k(x-d))³ + c
Square Root	g(x) = a(√k(x-d) ) + c
Absolute Value	g(x) = a \|k(x-d)\| + c

Domain and Range of Functions from Equations

Linear:
- D: {x E R}
- R: {y ER}
Cubic:
- D: {x E R}
- R: {y ER}
Quadratic:
- D: {x E R}
- R: {y E R/0 ≤ y}
  - c is the restriction (replacing zero)
Absolute Value:
- D: {x E R}
- R: {y E R/0 ≤ y}
  - c is the restriction (replacing zero)
Reciprocal:
- D: {x E R/ x ≠ 0}
  - c replaces the restriction
- R: {y E R/ y ≠ 0}
  - d replaces the restriction
    - The function cannot touch the asymptote thus the asymptote is our restriction
Square Root:
- D: {x E R / 0 ≤ x}
  - Make the number under the square root sign as small as it can be, so zero (because it cannot be negative since you can’t have a negative radicand)
- R: {y E R / 0 ≤ y}
  - Look at what your lowest y could be as a result of the reduction of x for domain

The Inverse Function

Write the function in x-y notation
Swap x and y
Solve for y

Home

03: Various Types of Functions

Parent Functions

Linear Function

f(x) = x

x	y
-2	-2
-1	-1
0	0
1	1
2	2

Domain: {x E R}

Range: {y E R}

Quadratic Function

f(x) = x²

x	y
-2	4
-1	1
0	0
1	1
2	4

Domain: {x E R}

Range: {y E R/0 ≤ y}

Square Root Function

f(x) = √x

x	y
0	0
1	1
4	2

Domain: {x E R/0 ≤ x}

Range: {y E R/0 ≤ y}

Reciprocal Function

f(x) = 1/x

x	y
-2	-1/2
-1	-1
-0.5	-2
0.5	2
1	1
2	1/2

Domain: {x E R/x ≠ 0}

Range: {y E R/y ≠ 0}

Asymptote: x = 0, y = 0

Absolute Value Function

f(x) = |x|

x	y
-2	2
-1	1
0	0
1	1
2	2

Domain: {x E R}

Range: {y E R/0 ≤ y}

Cubic Function

f(x) = x³

x	y
-2	-8
-1	-1
0	0
1	1
2	8

Domain: {x E R}

Range: {y E R}

Transformations of Parent Functions

Transformed functions: f(x) = a(k(x-d)) + c

Vertical Stretch: a
- By a factor of….
- If negative, reflection in the x axis
Horizontal Stretch: k
- Always 1/k (flipped)
- By a factor of….
- If negative, reflection in the y axis
Vertical Translation: c
- if positive, moves up
- If negative, moves down
Horizontal Translation: d
- Always the opposite sign of what it is in the brackets (sign is flipped)
- If positive in bracket (so negative alone), then it moves left ( <-- )
- If negative in bracket (so positive alone), then it moves right ( --> )

Mapping

Draw the parent functions’ table of values
Create mapping notation using:

Mapping Notation: ((1/k)x + d, ay + c)

Apply mapping notation to the parent function and graph (following BEDMAS, order of operations)

Combinations of Transformations

Quadratic	g(x) = a(k(x-d))² + c
Reciprocal	g(x) = a(1/(k(x-d)) + c
Cubic	g(x) = a(k(x-d))³ + c
Square Root	g(x) = a(√k(x-d) ) + c
Absolute Value	g(x) = a \|k(x-d)\| + c

Domain and Range of Functions from Equations

Linear:
- D: {x E R}
- R: {y ER}
Cubic:
- D: {x E R}
- R: {y ER}
Quadratic:
- D: {x E R}
- R: {y E R/0 ≤ y}
  - c is the restriction (replacing zero)
Absolute Value:
- D: {x E R}
- R: {y E R/0 ≤ y}
  - c is the restriction (replacing zero)
Reciprocal:
- D: {x E R/ x ≠ 0}
  - c replaces the restriction
- R: {y E R/ y ≠ 0}
  - d replaces the restriction
    - The function cannot touch the asymptote thus the asymptote is our restriction
Square Root:
- D: {x E R / 0 ≤ x}
  - Make the number under the square root sign as small as it can be, so zero (because it cannot be negative since you can’t have a negative radicand)
- R: {y E R / 0 ≤ y}
  - Look at what your lowest y could be as a result of the reduction of x for domain

The Inverse Function

Write the function in x-y notation
Swap x and y
Solve for y