All Algebra II Resources
Example Questions
Example Question #21 : Function Notation
Given and , what is ?
The question asked is a composite function.
Evaluate first. Replace x with the value of 2 in the function .
After substitution, evaluate . Replace x with the value of 6 in the function .
The answer is:
Example Question #21 : Function Notation
If , what must be?
Replace the value of negative six into the function of x equation.
Simplify this equation.
The answer is:
Example Question #23 : Function Notation
If and , what must be?
Notice that this composite function is asking for the value of of a particular number solved by evaluating . The function means that no matter what the x-value inside is, the final output will always be one.
We do not even need to evaluate to determine what is since we know that will yield a very large number, and that the output of the function of will be one for .
The answer is:
Example Question #151 : Introduction To Functions
If and , what is ?
Evaluate first. Substitute the function into .
Distribute the integer through the binomial and simplify the equation.
Multiply this expression with .
The answer is:
Example Question #21 : Function Notation
If and , what is ?
Evaluate each term separately.
The term means to input the function into the function .
Substitute the equation as the replacement of the x-variable.
Add the two terms.
The answer is:
Example Question #22 : Function Notation
Given the function: , what is ?
To solve this function, the term means to replace negative four with the x-variable.
Use order of operations and simplify the terms on the right side.
The answer is:
Example Question #27 : Function Notation
Given and , what is ?
Evaluate first. If we plugged in the function into the function , no matter what is replaced with, the final output will always be negative three.
Evaluate . Multiply the function by two.
Sum both numbers.
The answer is:
Example Question #28 : Function Notation
If , , and , what is ?
Evaluate each term separately.
The term means to input the function into the function .
Follow suit for . Substitute into the function .
Add the two known terms.
The answer is:
Example Question #29 : Function Notation
If , what is ?
In order to solve , replace the entire quantity of as a replacement of .
Replace the term.
Distribute the binomial.
The answer is:
Example Question #151 : Functions And Graphs
If , what is ?
Evaluate first. Substitute into the function as a replacement of the x-variable.
Substitute this value to determine .
The answer is:
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