Factoring Math Expression Simplification: Understanding the Steps

[Husaaved]

Homework Statement

Simplify the expression by factoring.

3(x+1)^1/2(2x-3)^5/2+10(x+1)^3/2(2x-3)^3/2

Homework Equations

The Attempt at a Solution

3(x+1)^1/2(2x-3)^5/2+10(x+1)^3/2(2x-3)^3/2
= (x + 1)^1/2(2x-3)^3/2[3(2x-3) + 10(x+1)]
= (x + 1)^1/2(2x - 3)^3/2(6x - 9 + 10x + 10)
= (x + 1)^1/2(2x - 3)^3/2(16x + 1)

This is an example problem in a textbook. What I don't understand however is what allows the first step to be a true statement, and the reasoning behind the subsequent steps. I would really appreciate some assistance with this.

Thank you.

 

[lurflurf]

The first two steps use the distributive property
a(b+c)=ab+bc

edited to add: the rule of exponents is also used
b^ab^c=b^a+c

in particular for the first step take
a=(x + 1)^1/2(2x-3)^3/2
b=3(2x-3)
c=10(x+1)
for the second step use the distributive property twice
first
a=3
b=2x
c=-3
second
a=10
b=x
c=1
The forth step uses the associative and commutative properties of addition
commutative
a+b=b+a
associative
a+(b+c)=(a+b)+c

now try to work through the example again

 

[Ray Vickson]

Homework Statement

Simplify the expression by factoring.

3(x+1)^1/2(2x-3)^5/2+10(x+1)^3/2(2x-3)^3/2

Homework Equations

The Attempt at a Solution

3(x+1)^1/2(2x-3)^5/2+10(x+1)^3/2(2x-3)^3/2
= (x + 1)^1/2(2x-3)^3/2[3(2x-3) + 10(x+1)]
= (x + 1)^1/2(2x - 3)^3/2(6x - 9 + 10x + 10)
= (x + 1)^1/2(2x - 3)^3/2(16x + 1)

This is an example problem in a textbook. What I don't understand however is what allows the first step to be a true statement, and the reasoning behind the subsequent steps. I would really appreciate some assistance with this.

Thank you.

Do you agree, or not agree, that
[tex](2x-3)^{5/2} = (2x-3)^{3/2} \cdot (2x-3)^{2/2}
= (2x-3)^{3/2} \cdot (2x-3)\:? [/tex]
Do you or do you not agree that
[tex] (x+1)^{3/2} = (x+1)^{1/2} \cdot (x+1)^{2/2} = (x+1)^{1/2} \cdot (x+1) \:? [/tex]
If you agree with both of these, you must then agree that there is a common factor ##(2x-3)^{3/2} \, (x+1)^{1/2}## in both terms of your original expression. So, just factor out this common thing, using the distributive law ##ab + ac = a(b+c)##.