A cubic function has x-intercepts at
Given the roots of a quartic function are
The graph of a function g(x) is shown to the right. Use the graph to answer the questions below:
How many turning points does the function have?
The graph of a function g(x) is shown to the right. Use the graph to answer the questions below:
How many turning points does the function have?
What is the degree of the function?
What are the real root(s), including their multiplicity?
Left to right
Type it in (x,0) multiplicity of #, (x,0)
The graph of a function g(x) is shown to the right. Use the graph to answer the questions below:
How many turning points does the function have?
What is the degree of the function?
Does the graph have a positive or negative leading coefficient?
What are the real root(s), including their multiplicity?
Left to right
Type it in (x,0) multiplicity of #, (x,0)
How many imaginary roots:
What are the factors?
Type them in from left to right
Does the graph have a positive or negative leading coefficient?
How many imaginary roots:
What is the degree of the function?
Does the graph have a positive or negative leading coefficient?
What are the real root(s), including their multiplicity?
Left to right
Type it in (x,0) multiplicity of #, (x,0)
How many imaginary roots:
What are the factors?
Type them in from left to right
Domain
Range
Increasing Interval
Decreasing Interval
Relative Minimum(s)
Absolute Minimum(s)
Relative Maximum(s):
Absolute Maximum(s):
Real Root(s):
Type it in (x,y),(x,y)
No Spaces
Y-intercept:
Type it in (x,y)
Domain
Range
Increasing Interval
Decreasing Interval
Relative Minimum(s)
Absolute Minimum(s)
Relative Maximum(s):
Absolute Maximum(s):
Real Root(s):
Type it in (x,y),(x,y)
No Spaces
Y-intercept:
Type it in (x,y)
