How can you use polynomial identities to rewrite expressions efficiently ?

Use polynomial identities to factor the polynomials or simplify the expressions :
$open parentheses 1 over 16 x to the power of 6 minus 25 y to the power of 4 close parentheses$

Use binomial theorem to expand . $left parenthesis x minus 1 right parenthesis to the power of 7$

Use polynomial identities to factor the polynomials or simplify the expressions :
$64 x cubed minus 125 y to the power of 6$

How are Pascal’s triangle and binomial expansion such as (a + b)⁵ related?

You can find the expansion of (x + y)n using both Pascal’s triangle and binomial expansion.

How are Pascal’s triangle and binomial expansion such as (a + b)⁵ related?

You can find the expansion of (x + y)n using both Pascal’s triangle and binomial expansion.

Use binomial theorem to expand . $open parentheses s squared plus 3 close parentheses to the power of 5$

Use polynomial identities to factor the polynomials or simplify the expressions :
$216 plus 27 y to the power of 12$

Explain why the middle term $left parenthesis x plus 5 right parenthesis squared$ is 10x.

In the Binomial Expansion's middle term, in the expansion of (a + b)n, there are (n + 1) terms. Therefore, we can write the middle term or terms of (a + b)n based on the value of n. It follows that there will only be one middle term if n is even and two middle terms if n is odd.
The binomial expansions of (x + y)n are used to find specific terms, such as the term independent of x or y.
Practice Questions
1. Find the expansion of (9x - 2y)12's coefficient of x5y7.
2. In the expansion of (2x - y)11, locate the 8th term.

Explain why the middle term $left parenthesis x plus 5 right parenthesis squared$ is 10x.

Use binomial theorem to expand $open parentheses s squared plus 3 close parentheses squared$ .

Use polynomial identities to factor the polynomials or simplify the expressions :
$4 x squared minus y to the power of 6$

How can you use polynomial identities to rewrite expressions efficiently ?

Polynomial identities are equations that are true for all possible values of the variable and numbers.

How can you use polynomial identities to rewrite expressions efficiently ?

Polynomial identities are equations that are true for all possible values of the variable and numbers.

Use binomial theorem to expand (2c + d)⁶

The expansion of the expression can also be found using the Pascal’s triangle. But, it is necessary to remember the values of the triangle to write down the expansion.

Use binomial theorem to expand (2c + d)⁶

The expansion of the expression can also be found using the Pascal’s triangle. But, it is necessary to remember the values of the triangle to write down the expansion.

Use binomial theorem to expand $left parenthesis x minus 3 right parenthesis to the power of 4$ .

Use binomial theorem to expand (x - 1)⁷

For the expansion of an expression (x + y)n , we would have n+1 terms. This is something you need to keep in mind.

Use binomial theorem to expand (x - 1)⁷

For the expansion of an expression (x + y)n , we would have n+1 terms. This is something you need to keep in mind.

Use polynomial identities to factor the polynomials or simplify the expressions :
$x cubed minus 27 y cubed$