Maths-

General

Easy

Question

Use the binomial theorem to expand the expressions: $left parenthesis 2 m plus 2 n right parenthesis to the power of 6$

hint Hint:

The binomial expansion is $left parenthesis x plus y right parenthesis to the power of n equals sum from k equals 0 to n of n C subscript k x to the power of n minus k end exponent y to the power of k comma text here end text n greater or equal than 0$ .
We are asked to find the expansion of $left parenthesis 2 m plus 2 n right parenthesis to the power of 6$ using Binomial theorem.

The correct answer is: (n+1)th row of the triangle.

Step 1 of 2:
The given expression is $left parenthesis 2 m plus 2 n right parenthesis to the power of 6$ . Here, the value of n=6, so we would have 6+1=7 terms in the expansion of the expression. The values of $x equals 2 m straight & y equals 2 n$ .
Step 2 of 2:
Substitute the values in the binomial equation to get the terms of the expansion:
$table attributes columnalign right left right left right left right left right left right left columnspacing 0em 2em 0em 2em 0em 2em 0em 2em 0em 2em 0em end attributes row cell left parenthesis 2 m plus 2 n right parenthesis to the power of 6 equals 6 C subscript 0 left parenthesis 2 m right parenthesis to the power of 6 plus 6 C subscript 1 left parenthesis 2 m right parenthesis to the power of 5 left parenthesis 2 n right parenthesis plus 6 C subscript 2 left parenthesis 2 m right parenthesis to the power of 4 left parenthesis 2 n right parenthesis squared plus 6 C subscript 3 left parenthesis 2 m right parenthesis cubed left parenthesis 2 n right parenthesis cubed plus end cell row cell 6 C subscript 4 left parenthesis 2 m right parenthesis squared left parenthesis 2 n right parenthesis to the power of 4 plus 6 C subscript 5 left parenthesis 2 m right parenthesis left parenthesis 2 n right parenthesis to the power of 5 plus 6 C subscript 6 left parenthesis 2 n right parenthesis to the power of 6 end cell row cell equals 64 m to the power of 6 plus 6 open parentheses 32 m to the power of 5 close parentheses left parenthesis 2 n right parenthesis plus 15 open parentheses 16 m to the power of 4 close parentheses open parentheses 4 n squared close parentheses plus 20 open parentheses 8 m cubed close parentheses open parentheses 8 n cubed close parentheses plus end cell row cell 15 open parentheses 4 m squared close parentheses open parentheses 16 n to the power of 4 close parentheses plus 6 left parenthesis 2 m right parenthesis open parentheses 32 n to the power of 5 close parentheses plus 64 n to the power of 6 end cell row cell equals 64 m to the power of 6 plus 384 m to the power of 5 n plus 960 m to the power of 4 n squared plus 1280 m cubed n cubed plus 960 m squared n to the power of 4 plus 384 m n to the power of 5 plus 64 n to the power of 6 end cell end table$
Thus, the expansion of the expression is; $left parenthesis 2 m plus 2 n right parenthesis to the power of 6 equals 64 m to the power of 6 plus 384 m to the power of 5 n plus 960 m to the power of 4 n squared plus 1280 m cubed n cubed plus 960 m squared n to the power of 4 plus 384 m n to the power of 5 plus 64 n to the power of 6$

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

Use the binomial theorem to expand the expressions: $left parenthesis d minus 3 right parenthesis to the power of 4$

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

Have a query? Ask a Tutor!!

Can’t find what you’re looking for?

Use the binomial theorem to expand the expressions:

The binomial expansion is .We are asked to find the expansion of using Binomial theorem.

The correct answer is: (n+1)th row of the triangle.

Step 1 of 2:The given expression is . Here, the value of n=6, so we would have 6+1=7 terms in the expansion of the expression. The values of .Step 2 of 2:Substitute the values in the binomial equation to get the terms of the expansion:Thus, the expansion of the expression is;

Related Questions to study

Use the binomial theorem to expand the expressions:

Use the binomial theorem to expand the expressions:

Use the binomial theorem to expand the expressions:

Use the binomial theorem to expand the expressions:

Use the binomial theorem to expand the expressions:

Use the binomial theorem to expand the expressions:

Use the binomial theorem to expand the expressions:

Use the binomial theorem to expand the expressions:

Use the binomial theorem to expand the expressions:

Use the binomial theorem to expand the expressions:

Use the binomial theorem to expand the expressions:

Use the binomial theorem to expand the expressions:

Use the binomial theorem to expand the expressions:

Use the binomial theorem to expand the expressions:

Use polynomial identities to factor the polynomials or simplify the expressions :

Use polynomial identities to factor the polynomials or simplify the expressions :

Use polynomial identities to factor the polynomials or simplify the expressions :

Use polynomial identities to factor the polynomials or simplify the expressions :

Use polynomial identities to factor the polynomials or simplify the expressions :

Use polynomial identities to factor the polynomials or simplify the expressions :

Use polynomial identities to factor the polynomials or simplify the expressions :

Use polynomial identities to factor the polynomials or simplify the expressions :

Use polynomial identities to factor the polynomials or simplify the expressions :

Use polynomial identities to factor the polynomials or simplify the expressions :

Use polynomial identities to factor the polynomials or simplify the expressions :

Use polynomial identities to factor the polynomials or simplify the expressions :

Use polynomial identities to factor the polynomials or simplify the expressions :

Use polynomial identities to factor the polynomials or simplify the expressions :

Use polynomial identities to factor the polynomials or simplify the expressions :

Use polynomial identities to factor the polynomials or simplify the expressions :

With Turito Academy.

With Turito Foundation.

Get an Expert Advice From Turito.

Turito Academy

With Turito Academy.

Test Prep

With Turito Foundation.

Courses

Quick Links

Use the binomial theorem to expand the expressions: $left parenthesis 2 m plus 2 n right parenthesis to the power of 6$

Use the binomial theorem to expand the expressions: $left parenthesis d minus 3 right parenthesis to the power of 4$

Use the binomial theorem to expand the expressions: $left parenthesis d minus 3 right parenthesis to the power of 4$

Use the binomial theorem to expand the expressions: $open parentheses x cubed plus y squared close parentheses to the power of 6$

Use the binomial theorem to expand the expressions: $open parentheses x cubed plus y squared close parentheses to the power of 6$

Use the binomial theorem to expand the expressions: $open parentheses 2 x plus 1 third close parentheses cubed$

Use the binomial theorem to expand the expressions: $open parentheses 2 x plus 1 third close parentheses cubed$

Use the binomial theorem to expand the expressions: $open parentheses x squared plus 1 close parentheses to the power of 4$

Use the binomial theorem to expand the expressions: $open parentheses x squared plus 1 close parentheses to the power of 4$

Use the binomial theorem to expand the expressions: $left parenthesis b minus 0.5 right parenthesis to the power of 4$

Use the binomial theorem to expand the expressions: $left parenthesis b minus 0.5 right parenthesis to the power of 4$

Use the binomial theorem to expand the expressions: $left parenthesis 2 a minus b right parenthesis to the power of 5$

Use the binomial theorem to expand the expressions: $left parenthesis 2 a minus b right parenthesis to the power of 5$

Use the binomial theorem to expand the expressions: $left parenthesis x plus 3 right parenthesis cubed$

Use the binomial theorem to expand the expressions: $left parenthesis x plus 3 right parenthesis cubed$

Use polynomial identities to factor the polynomials or simplify the expressions : $8 cubed minus 2 cubed$

Use polynomial identities to factor the polynomials or simplify the expressions : $8 cubed minus 2 cubed$

Use polynomial identities to factor the polynomials or simplify the expressions :
$10 cubed minus 3 cubed$

Use polynomial identities to factor the polynomials or simplify the expressions :
$10 cubed minus 3 cubed$

Use polynomial identities to factor the polynomials or simplify the expressions :
$10 cubed plus 5 cubed$

Use polynomial identities to factor the polynomials or simplify the expressions :
$10 cubed plus 5 cubed$

Use polynomial identities to factor the polynomials or simplify the expressions :
$9 cubed plus 6 cubed$

Use polynomial identities to factor the polynomials or simplify the expressions :
$9 cubed plus 6 cubed$

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

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

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

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

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

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