All Common Core: High School - Algebra Resources
Example Questions
Example Question #1 : Identify Zeros, Factor And Graph Polynomials: Ccss.Math.Content.Hsa Apr.B.3
What are the -intercept(s) of the function?
To find the -intercept of a function, first recall that the -intercept represents the points where the graph of the function crosses the -axis. In other words where the function has a value equal to zero.
One technique that can be used is factorization. In general form,
where,
and are factors of and when added together results in .
For the given function,
the coefficients are,
therefore the factors of that have a sum of are,
Now find the -intercepts of the function by setting each binomial equal to zero and solving for .
To verify, graph the function.
The graph crosses the -axis at -2 and 3, thus verifying the results found by factorization.
Example Question #212 : High School: Algebra
What are the -intercept(s) of the function?
To find the -intercept of a function, first recall that the -intercept represents the points where the graph of the function crosses the -axis. In other words where the function has a value equal to zero.
One technique that can be used is factorization. In general form,
where,
and are factors of and when added together results in .
For the given function,
the coefficients are,
therefore the factors of that have a sum of are,
Now find the -intercepts of the function by setting each binomial equal to zero and solving for .
To verify, graph the function.
The graph crosses the -axis at 3 and 4, thus verifying the results found by factorization.
Example Question #3 : Identify Zeros, Factor And Graph Polynomials: Ccss.Math.Content.Hsa Apr.B.3
What are the -intercept(s) of the function?
To find the -intercept of a function, first recall that the -intercept represents the points where the graph of the function crosses the -axis. In other words where the function has a value equal to zero.
One technique that can be used is factorization. In general form,
where,
and are factors of and when added together results in .
For the given function,
the coefficients are,
therefore the factors of that have a sum of are,
Now find the -intercepts of the function by setting each binomial equal to zero and solving for .
To verify, graph the function.
The graph crosses the -axis at -3 and -6, thus verifying the results found by factorization.
Example Question #4 : Identify Zeros, Factor And Graph Polynomials: Ccss.Math.Content.Hsa Apr.B.3
What are the -intercept(s) of the function?
To find the -intercept of a function, first recall that the -intercept represents the points where the graph of the function crosses the -axis. In other words where the function has a value equal to zero.
One technique that can be used is factorization. In general form,
where,
and are factors of and when added together results in .
For the given function,
the coefficients are,
therefore the factors of that have a sum of are,
Now find the -intercepts of the function by setting each binomial equal to zero and solving for .
To verify, graph the function.
The graph crosses the -axis at -4 and 2, thus verifying the results found by factorization.
Example Question #1 : Identify Zeros, Factor And Graph Polynomials: Ccss.Math.Content.Hsa Apr.B.3
What are the -intercept(s) of the function?
To find the -intercept of a function, first recall that the -intercept represents the points where the graph of the function crosses the -axis. In other words where the function has a value equal to zero.
One technique that can be used is factorization. In general form,
where,
and are factors of and when added together results in .
For the given function,
the coefficients are,
therefore the factors of that have a sum of are,
Now find the -intercepts of the function by setting each binomial equal to zero and solving for .
To verify, graph the function.
The graph crosses the -axis at -1, thus verifying the result found by factorization.
Example Question #3 : Identify Zeros, Factor And Graph Polynomials: Ccss.Math.Content.Hsa Apr.B.3
What are the -intercept(s) of the function?
To find the -intercept of a function, first recall that the -intercept represents the points where the graph of the function crosses the -axis. In other words where the function has a value equal to zero.
One technique that can be used is factorization. In general form,
where,
and are factors of and when added together results in .
For the given function,
the coefficients are,
therefore the factors of that have a sum of are,
Now find the -intercepts of the function by setting each binomial equal to zero and solving for .
To verify, graph the function.
The graph crosses the -axis at -6 and -1, thus verifying the results found by factorization.
Example Question #221 : High School: Algebra
What are the -intercept(s) of the function?
To find the -intercept of a function, first recall that the -intercept represents the points where the graph of the function crosses the -axis. In other words where the function has a value equal to zero.
One technique that can be used is factorization. In general form,
where,
and are factors of and when added together results in .
For the given function,
the coefficients are,
therefore the factors of that have a sum of are,
Now find the -intercepts of the function by setting each binomial equal to zero and solving for .
To verify, graph the function.
The graph crosses the -axis at -1 and -3, thus verifying the results found by factorization.
Example Question #6 : Identify Zeros, Factor And Graph Polynomials: Ccss.Math.Content.Hsa Apr.B.3
What are the -intercept(s) of the function?
To find the -intercept of a function, first recall that the -intercept represents the points where the graph of the function crosses the -axis. In other words where the function has a value equal to zero.
One technique that can be used is factorization. In general form,
where,
and are factors of and when added together results in .
For the given function,
the coefficients are,
therefore the factors of that have a sum of are,
Now find the -intercepts of the function by setting each binomial equal to zero and solving for .
To verify, graph the function.
The graph crosses the -axis at 1, thus verifying the result found by factorization.
Example Question #7 : Identify Zeros, Factor And Graph Polynomials: Ccss.Math.Content.Hsa Apr.B.3
What are the -intercept(s) of the function?
To find the -intercept of a function, first recall that the -intercept represents the points where the graph of the function crosses the -axis. In other words where the function has a value equal to zero.
One technique that can be used is factorization. In general form,
where,
and are factors of and when added together results in .
For the given function,
the coefficients are,
therefore the factors of that have a sum of are,
Now find the -intercepts of the function by setting each binomial equal to zero and solving for .
To verify, graph the function.
The graph crosses the -axis at 1 and 7, thus verifying the results found by factorization.
Example Question #222 : High School: Algebra
What are the -intercept(s) of the function?
To find the -intercept of a function, first recall that the -intercept represents the points where the graph of the function crosses the -axis. In other words where the function has a value equal to zero.
One technique that can be used is factorization. In general form,
where,
and are factors of and when added together results in .
For the given function,
the coefficients are,
therefore the factors of that have a sum of are,
Now find the -intercepts of the function by setting each binomial equal to zero and solving for .
To verify, graph the function.
The graph crosses the -axis at 2 and 3, thus verifying the results found by factorization.
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