Polynomials - Pre-Algebra

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Question

Simplify:

$(b^5)(b^{-4})$

Answer

When you multiply exponents with the same base, you add the exponents:

$(b^5)(b^{-4})=b$

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Question

Simplify:

Answer

When you multiply exponents with the same base, you add the exponents:

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Question

Simplify:

$(d^{13})(d^6)$

Answer

When you multiply exponents with the same base, you add the exponents:

$(d^{13})(d^6)=d^{19}$

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Question

Simplify:

Answer

When you multiply exponents with the same base, you add the exponents:

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Question

Simplify:

Answer

When you multiply exponents with the same base, you add the exponents:

$(f^5)(f^5)=f^{10}$

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Question

Simplify:

Answer

When you multiply exponents with the same base, you add the exponents:

$(g^2h^8)(g^6h^6)=g^8h^{14}$

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Question

Simplify:

$(i^{12})(i^{-4})$

Answer

When you multiply exponents with the same base, you add the exponents:

$(i^{12})(i^{-4})=i^8$

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Question

Simplify:

Answer

When you multiply exponents with the same base, you add the exponents:

$(u^2t^7)(u^7t^5)=u^9t^{12}$

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Question

Simplify:
$\small (x^4+3x^2-2)-(x^4-2x^2+7)$

Answer

$\small (x^4+3x^2-2)-(x^4-2x^2+7)=x^4+3x^2-2-x^4+2x^2-7$

Combine like terms:
$\small 5x^2-9$

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Question

Simplify:

$\left ( x^{3}+2x^{2}+5x \right )+\left ( x^{2}-3x+3 \right )$

Answer

You can first rewrite the problem without the parentheses:

$\left ( x^{3}+2x^{2}+5x \right )+\left ( x^{2}-3x+3 \right )=x^{3}+2x^{2}+5x +x^{2}-3x+3$

Next, write the problem so that like terms are next to eachother:

$x^{3}+2x^{2}+x^{2}+5x-3x+3$

Then, add or subtract (depending on the operation) like terms. Remember that variables with different exponents are not like terms. For example, $2x^{2}$ and $x^{2}$ are like terms, but $x^{2}$ and are not like terms:

$x^{3}+3x^{2}+2x+3$

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Question

Simplify:

$\left ( 2x^{2}+4x+6 \right )-\left ( 3x^{2}+2x+10 \right )$

Answer

$\left ( 2x^{2}+4x+6 \right )-\left ( 3x^{2}+2x+10 \right )$

When subtracting one polynomial from another, you must use distributive property to distribute the – sign:

$-\left ( 3x^{2}+2x+10 \right ) = -3x^{2}-2x-10$

$-1*3x^{2}=-3x^{2}$

Now, rewrite the entire problem without the parentheses:

$2x^{2}+4x+6-3x^{2}-2x-10$

Reorganize the problem so that like terms are together. Remember that variables with different exponents are not like terms. For example, $2x^{2}$ and $-3x^{2}$ are like terms, but, $2x^{2}$ and are not like terms:

$2x^{2}-3x^{2}+4x-2x+6-10$

Combine the like terms by adding or subtracting (depending on the operation):

$-x^{2}+2x-4$

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Question

Simplify: $\frac{6x^7y^3z^9}{3x^6y^3z}$

Answer

Cancel by subtracting the exponents of like terms:

$\frac{6x^7y^3z^9}{3x^6y^3z} = 2x^{7-6}y^{3-3}z^{9-1}=2xy^0z^8=2xz^8$

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Question

Simplify the following expression:

Answer

The simplify this expression, combine like terms. Terms are like if they have the same variables and powers. To combine them, use addition and/or subtraction of the coefficients. The variables and powers do not change when you are combining.

and are like terms (both have the variable ). To combine them, you do

6 and 2 are also like terms (both have no variable). To combine them, you do .

You now have your simplified expression: which is the final answer.

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Question

Simplify the following expression:

Answer

The simplify this expression, combine like terms. Terms are like if they have the same variables and powers. To combine them, use addition and/or subtraction of the coefficients. The variables and powers do not change when you are combining.

and are like terms (both have the variable and the exponent 1). To combine them, you do

has the variable and the exponent 2.

has the variable and the exponent 3.

So and are NOT like terms - their exponents are different. We cannot combine them. If you cannot combine terms, just leave them the same as they are and re-write them in you answer.

So the answer is:

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Question

Simplify the following expression:

Answer

The simplify this expression, combine like terms. Terms are like if they have the same variables and powers. To combine them, use addition and/or subtraction of the coefficients. The variables and powers do not change when you are combining.

and are like terms (both have the variable and the exponent 1). To combine them, you do

has the variable and the exponent 1.

has the variable and the exponent 1

So and they are NOT like terms - their variables are different. We cannot combine them. If you cannot combine terms, just leave them the same as they are and re-write them in you answer.

So the answer is:

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Question

Simplify the following expression:

Answer

In previous problems, we used combining like terms to simplify. In this case, we first need to distribute in order to get rid of the parentheses.

Parentheses always indicate the operation multiplication. You multiply the number on the ouside of the parenthese by EVERY term inside the parentheses. In this case, you would multiply and

After this first step, you should have:

Then, we will combine like terms. Here, the like terms are and (they both have the variable and exponent 1). They combine into

So the final answer is

(There is not anything you need to combine the 12 with, so you just leave it as is.)

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Question

Simplify:

$x^{4}+3x^{2}+14x-(x^4-3x^3+2x^2)$

Answer

To solve you must first distribute the negative to the parentheses

Then you should combine like terms and you are left with

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Question

Simplify:

Answer

First simplify the parentheses to get:

Then combine like terms to get your answer of

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Question

Simplify.

$5x^{3}+6x-3 - \left ( 3x-2x^{2} +1 \right )$

Answer

First distribute the negative:

$5x^{3}+6x-3+ \left ( -3x+2x^{2}-1 \right )$

Group like terms, meaning terms that have the same variable and same exponent:

$5x^{3}+2x^{2}+6x- 3x-3 -1$

Add the like terms:

$5x^{3}+2x^{2}+3x-4$

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Question

Simplify the following expression:

Answer

In previous problems, we used combining like terms to simplify. In this case, we first need to distribute in order to get rid of the parentheses.

Parentheses always indicate the operation multiplication. You multiply the number on the ouside of the parenthese by EVERY term inside the parentheses. In this case, you would multiply and

After this first step, you should have:

Then, we will combine like terms. Here, the like terms are and (they both have the variable and exponent 1). They combine into

So the final answer is

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