Prove the polynomial identity $x to the power of 4 minus y to the power of 4 equals left parenthesis x minus y right parenthesis left parenthesis x plus y right parenthesis open parentheses x squared plus y squared close parentheses$

We can use multiple identities to simplify or factorize a polynomial fraction

How many terms will there be in the expansion of the expression $left parenthesis x plus 3 right parenthesis to the power of n$ . Explain how you know

For the expansion of the expression (x + y)n , we would have n+1 terms.

How many terms will there be in the expansion of the expression $left parenthesis x plus 3 right parenthesis to the power of n$ . Explain how you know

For the expansion of the expression (x + y)n , we would have n+1 terms.

Factor $open parentheses x cubed minus 125 y to the power of 6 close parentheses$ in the form $left parenthesis x minus a right parenthesis open parentheses x squared plus b x plus c close parentheses$ . Then find the value of a, b and c.

We use polynomial identities to factorize and expand polynomials to reduce time and space.

Factor $open parentheses x cubed minus 125 y to the power of 6 close parentheses$ in the form $left parenthesis x minus a right parenthesis open parentheses x squared plus b x plus c close parentheses$ . Then find the value of a, b and c.

We use polynomial identities to factorize and expand polynomials to reduce time and space.

The sum of the coefficients in the expansion of the expression (a + b)ⁿ is 64. Use Pascal’s triangle to find the value of n.

To find the value of n when the sum of coefficients is given, we have to write them as the power of two. The power would be the value of n.

The sum of the coefficients in the expansion of the expression (a + b)ⁿ is 64. Use Pascal’s triangle to find the value of n.

To find the value of n when the sum of coefficients is given, we have to write them as the power of two. The power would be the value of n.

A student says that the expansion of the expression $left parenthesis negative 4 y plus z right parenthesis to the power of 7$ has seven terms. Describe and correct the error the student may have made ?

The answer can be found the Pascal’s triangle as well. The expansion of an expression $left parenthesis x plus y right parenthesis to the power of n$ has n+ 1 term.

A student says that the expansion of the expression $left parenthesis negative 4 y plus z right parenthesis to the power of 7$ has seven terms. Describe and correct the error the student may have made ?

The answer can be found the Pascal’s triangle as well. The expansion of an expression $left parenthesis x plus y right parenthesis to the power of n$ has n+ 1 term.

Expand the expression (2x - 1)⁴ .what is the sum of the coefficients?

The answer can be also found using the Pascal’s triangle. For an expression (x + y)n , we would consider the (n+1)th row.

Expand the expression (2x - 1)⁴ .what is the sum of the coefficients?

The answer can be also found using the Pascal’s triangle. For an expression (x + y)n , we would consider the (n+1)th row.

Use Pascal’s triangle and the binomial theorem to expand (x + 1)⁴ . Justify your work.

We can use both the binomial theorem and the Pascal’s triangle to get the expansion of any expression.

Use Pascal’s triangle and the binomial theorem to expand (x + 1)⁴ . Justify your work.

We can use both the binomial theorem and the Pascal’s triangle to get the expansion of any expression.

Emma factored $open parentheses 625 g to the power of 16 minus 25 h to the power of 4 close parentheses$ Describe and correct the error Emma made in factoring the polynomial.

It is important to recall the law of exponents while to expand polynomial expressions.

Emma factored $open parentheses 625 g to the power of 16 minus 25 h to the power of 4 close parentheses$ Describe and correct the error Emma made in factoring the polynomial.

It is important to recall the law of exponents while to expand polynomial expressions.

Expand $left parenthesis 3 x plus 4 y right parenthesis cubed$ using binomial theorem.

The answer can be found using the Pascal’s triangle. For $left parenthesis x plus y right parenthesis to the power of n$ , we would consider the (n+1)th row as the coefficients.

Expand $left parenthesis 3 x plus 4 y right parenthesis cubed$ using binomial theorem.

The answer can be found using the Pascal’s triangle. For $left parenthesis x plus y right parenthesis to the power of n$ , we would consider the (n+1)th row as the coefficients.

Expand $left parenthesis 3 x plus 4 y right parenthesis cubed$ using Pascal’s triangle.

The answer can be found using the binomial theorem $left parenthesis x plus y right parenthesis to the power of n equals sum from k equals 0 to n of n C subscript k x to the power of n minus k end exponent y to the power of k text where end text n greater or equal than 0$

Expand $left parenthesis 3 x plus 4 y right parenthesis cubed$ using Pascal’s triangle.

Use binomial theorem to expand expression (x + y)⁷ .

The answer can be found using the Pascal’s triangle. For an expression (x + y)n , we would have n + 1 term.

Use binomial theorem to expand expression (x + y)⁷ .

The answer can be found using the Pascal’s triangle. For an expression (x + y)n , we would have n + 1 term.

Use binomial theorem to expand expression (d - 1)⁴

The answer can be found using the Pascal’s triangle. For an expression $left parenthesis x plus y right parenthesis to the power of n$ , we would have n+ 1 term.

Use binomial theorem to expand expression (d - 1)⁴

The answer can be found using the Pascal’s triangle. For an expression $left parenthesis x plus y right parenthesis to the power of n$ , we would have n+ 1 term.

Use Pascal triangle to expand the expression (a - b)⁶ .

The answer can be found using the binomial expansion of $left parenthesis x plus y right parenthesis to the power of n equals sum from k equals 0 to n of n C subscript k x to the power of n minus k end exponent y to the power of k text where end text n greater or equal than 0$

Use Pascal triangle to expand the expression (a - b)⁶ .

Use Pascal’s triangle to expand the expression (x + 1)⁵

How many terms will there be in the expansion of the expression $left parenthesis x plus 3 right parenthesis to the power of n$ . Explain how you know?