How to multiply polynomials - PSAT Math

Card 0 of 14

Question

$F(x) = x^{3} + x^{2} - x + 2$

and

$G(x) = x^{2} + 5$

What is ?

Answer

$(FG)(x) = F(x)G(x)$ so we multiply the two function to get the answer. We use $x^{m}x^{n} = x^{m+n}$

Compare your answer with the correct one above

Question

Multiply:

$\left (100Y^{2}- 70Y + 49 \right )(10Y+7)$

Answer

$\left (100Y^{2}- 70Y + 49 \right )(10Y+7)$

$= \left [\left (10Y \right )^{2}- 10Y\cdot 7 +7^{2} \right ](10Y+7)$

This product fits the sum of cubes pattern, where :

$(A^{2}-AB +B^{2})(A+B) = A^{3}+B^{3}$

So

$\left [\left (10Y \right )^{2}- 10Y\cdot 7 +7^{2} \right ](10Y+7)$

$= (10Y)^{3}+7^{3} = 1,000Y^{3} + 343$

Compare your answer with the correct one above

Question

$F(x) = x^{3} + x^{2} - x + 2$

and

$G(x) = x^{2} + 5$

What is ?

Answer

$(FG)(x) = F(x)G(x)$ so we multiply the two function to get the answer. We use $x^{m}x^{n} = x^{m+n}$

Compare your answer with the correct one above

Question

Multiply:

$\left (100Y^{2}- 70Y + 49 \right )(10Y+7)$

Answer

$\left (100Y^{2}- 70Y + 49 \right )(10Y+7)$

$= \left [\left (10Y \right )^{2}- 10Y\cdot 7 +7^{2} \right ](10Y+7)$

This product fits the sum of cubes pattern, where :

$(A^{2}-AB +B^{2})(A+B) = A^{3}+B^{3}$

So

$\left [\left (10Y \right )^{2}- 10Y\cdot 7 +7^{2} \right ](10Y+7)$

$= (10Y)^{3}+7^{3} = 1,000Y^{3} + 343$

Compare your answer with the correct one above

Question

$F(x) = x^{3} + x^{2} - x + 2$

and

$G(x) = x^{2} + 5$

What is ?

Answer

$(FG)(x) = F(x)G(x)$ so we multiply the two function to get the answer. We use $x^{m}x^{n} = x^{m+n}$

Compare your answer with the correct one above

Question

Multiply:

$\left (100Y^{2}- 70Y + 49 \right )(10Y+7)$

Answer

$\left (100Y^{2}- 70Y + 49 \right )(10Y+7)$

$= \left [\left (10Y \right )^{2}- 10Y\cdot 7 +7^{2} \right ](10Y+7)$

This product fits the sum of cubes pattern, where :

$(A^{2}-AB +B^{2})(A+B) = A^{3}+B^{3}$

So

$\left [\left (10Y \right )^{2}- 10Y\cdot 7 +7^{2} \right ](10Y+7)$

$= (10Y)^{3}+7^{3} = 1,000Y^{3} + 343$

Compare your answer with the correct one above

Question

$F(x) = x^{3} + x^{2} - x + 2$

and

$G(x) = x^{2} + 5$

What is ?

Answer

$(FG)(x) = F(x)G(x)$ so we multiply the two function to get the answer. We use $x^{m}x^{n} = x^{m+n}$

Compare your answer with the correct one above

Question

Multiply:

$\left (100Y^{2}- 70Y + 49 \right )(10Y+7)$

Answer

$\left (100Y^{2}- 70Y + 49 \right )(10Y+7)$

$= \left [\left (10Y \right )^{2}- 10Y\cdot 7 +7^{2} \right ](10Y+7)$

This product fits the sum of cubes pattern, where :

$(A^{2}-AB +B^{2})(A+B) = A^{3}+B^{3}$

So

$\left [\left (10Y \right )^{2}- 10Y\cdot 7 +7^{2} \right ](10Y+7)$

$= (10Y)^{3}+7^{3} = 1,000Y^{3} + 343$

Compare your answer with the correct one above

Question

$F(x) = x^{3} + x^{2} - x + 2$

and

$G(x) = x^{2} + 5$

What is ?

Answer

$(FG)(x) = F(x)G(x)$ so we multiply the two function to get the answer. We use $x^{m}x^{n} = x^{m+n}$

Compare your answer with the correct one above

Question

Multiply:

$\left (100Y^{2}- 70Y + 49 \right )(10Y+7)$

Answer

$\left (100Y^{2}- 70Y + 49 \right )(10Y+7)$

$= \left [\left (10Y \right )^{2}- 10Y\cdot 7 +7^{2} \right ](10Y+7)$

This product fits the sum of cubes pattern, where :

$(A^{2}-AB +B^{2})(A+B) = A^{3}+B^{3}$

So

$\left [\left (10Y \right )^{2}- 10Y\cdot 7 +7^{2} \right ](10Y+7)$

$= (10Y)^{3}+7^{3} = 1,000Y^{3} + 343$

Compare your answer with the correct one above

Question

$F(x) = x^{3} + x^{2} - x + 2$

and

$G(x) = x^{2} + 5$

What is ?

Answer

$(FG)(x) = F(x)G(x)$ so we multiply the two function to get the answer. We use $x^{m}x^{n} = x^{m+n}$

Compare your answer with the correct one above

Question

Multiply:

$\left (100Y^{2}- 70Y + 49 \right )(10Y+7)$

Answer

$\left (100Y^{2}- 70Y + 49 \right )(10Y+7)$

$= \left [\left (10Y \right )^{2}- 10Y\cdot 7 +7^{2} \right ](10Y+7)$

This product fits the sum of cubes pattern, where :

$(A^{2}-AB +B^{2})(A+B) = A^{3}+B^{3}$

So

$\left [\left (10Y \right )^{2}- 10Y\cdot 7 +7^{2} \right ](10Y+7)$

$= (10Y)^{3}+7^{3} = 1,000Y^{3} + 343$

Compare your answer with the correct one above

Question

$F(x) = x^{3} + x^{2} - x + 2$

and

$G(x) = x^{2} + 5$

What is ?

Answer

$(FG)(x) = F(x)G(x)$ so we multiply the two function to get the answer. We use $x^{m}x^{n} = x^{m+n}$

Compare your answer with the correct one above

Question

Multiply:

$\left (100Y^{2}- 70Y + 49 \right )(10Y+7)$

Answer

$\left (100Y^{2}- 70Y + 49 \right )(10Y+7)$

$= \left [\left (10Y \right )^{2}- 10Y\cdot 7 +7^{2} \right ](10Y+7)$

This product fits the sum of cubes pattern, where :

$(A^{2}-AB +B^{2})(A+B) = A^{3}+B^{3}$

So

$\left [\left (10Y \right )^{2}- 10Y\cdot 7 +7^{2} \right ](10Y+7)$

$= (10Y)^{3}+7^{3} = 1,000Y^{3} + 343$

Compare your answer with the correct one above

Tap the card to reveal the answer

How to multiply polynomials - PSAT Math

and What is ?

so we multiply the two function to get the answer. We use

Multiply:

This product fits the sum of cubes pattern, where : So

and What is ?

so we multiply the two function to get the answer. We use

Multiply:

This product fits the sum of cubes pattern, where : So

and What is ?

so we multiply the two function to get the answer. We use

Multiply:

This product fits the sum of cubes pattern, where : So

and What is ?

so we multiply the two function to get the answer. We use

Multiply:

This product fits the sum of cubes pattern, where : So

and What is ?

so we multiply the two function to get the answer. We use

Multiply:

This product fits the sum of cubes pattern, where : So

and What is ?

so we multiply the two function to get the answer. We use

Multiply:

This product fits the sum of cubes pattern, where : So

and What is ?

so we multiply the two function to get the answer. We use

Multiply:

This product fits the sum of cubes pattern, where : So

$F(x) = x^{3} + x^{2} - x + 2$

and

$G(x) = x^{2} + 5$

What is ?

$(FG)(x) = F(x)G(x)$ so we multiply the two function to get the answer. We use $x^{m}x^{n} = x^{m+n}$

Multiply:

$\left (100Y^{2}- 70Y + 49 \right )(10Y+7)$

$F(x) = x^{3} + x^{2} - x + 2$

and

$G(x) = x^{2} + 5$

What is ?

$(FG)(x) = F(x)G(x)$ so we multiply the two function to get the answer. We use $x^{m}x^{n} = x^{m+n}$

Multiply:

$\left (100Y^{2}- 70Y + 49 \right )(10Y+7)$

$F(x) = x^{3} + x^{2} - x + 2$

and

$G(x) = x^{2} + 5$

What is ?

$(FG)(x) = F(x)G(x)$ so we multiply the two function to get the answer. We use $x^{m}x^{n} = x^{m+n}$

Multiply:

$\left (100Y^{2}- 70Y + 49 \right )(10Y+7)$

$F(x) = x^{3} + x^{2} - x + 2$

and

$G(x) = x^{2} + 5$

What is ?

$(FG)(x) = F(x)G(x)$ so we multiply the two function to get the answer. We use $x^{m}x^{n} = x^{m+n}$

Multiply:

$\left (100Y^{2}- 70Y + 49 \right )(10Y+7)$

$F(x) = x^{3} + x^{2} - x + 2$

and

$G(x) = x^{2} + 5$

What is ?

$(FG)(x) = F(x)G(x)$ so we multiply the two function to get the answer. We use $x^{m}x^{n} = x^{m+n}$

Multiply:

$\left (100Y^{2}- 70Y + 49 \right )(10Y+7)$

$F(x) = x^{3} + x^{2} - x + 2$

and

$G(x) = x^{2} + 5$

What is ?

$(FG)(x) = F(x)G(x)$ so we multiply the two function to get the answer. We use $x^{m}x^{n} = x^{m+n}$

Multiply:

$\left (100Y^{2}- 70Y + 49 \right )(10Y+7)$

$F(x) = x^{3} + x^{2} - x + 2$

and

$G(x) = x^{2} + 5$

What is ?

$(FG)(x) = F(x)G(x)$ so we multiply the two function to get the answer. We use $x^{m}x^{n} = x^{m+n}$

Multiply:

$\left (100Y^{2}- 70Y + 49 \right )(10Y+7)$