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Algebra II : Algebra II

Study concepts, example questions & explanations for Algebra II

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Example Questions

Example Question #4011 : Algebra Ii

Simplify.

$\sqrt{(x^2+4x+4)}$

Possible Answers:

$x+2\sqrt{2x}$

$\sqrt{x^2+4x+4}$

x+2

Correct answer:

x+2

Explanation:

Let's see if this quadratic can be broken down. Remember, we need to find two terms that are factors of the c term that add up to the b term.

It turns out that x^2+4x+4 = (x+2)^2 .

The second power and square root cancel out leaving you with just x+2 .

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Example Question #4012 : Algebra Ii

Simplify.

$\sqrt{4x^2+8x+4}$

Possible Answers:

$\sqrt{4x^2+8x+4}$

2(x+1)

$4x+4\sqrt{2x}$

Correct answer:

2(x+1)

Explanation:

Let's factor a out first since they divide evenly with all of the terms.

We get 4(x^2+2x+1)

Let's see if this quadratic can be broken down. Remember, we need to find two terms that are factors of the c term that add up to the b term.

It turns out that x^2+2x+1 = (x+1)^2 .

We have perfect squares so the final answer is 2(x+1) .

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Example Question #15 : Simplifying Radicals

Simplify.

$\sqrt{36x^2y^4}$

Possible Answers:

6xy^2

$36x\sqrt{y^4}$

$\sqrt{36x^2y^4}$

$xy^2\sqrt{6}$

$6x\sqrt{y^4}$

Correct answer:

6xy^2

Explanation:

When simplifying radicals, you want to factor the radicand and look for perfect squares.

$\sqrt{36x^2y^4}=\sqrt{9\cdot 4\cdot x\cdot x\cdot y^2\cdot y^2}=3\cdot2\cdotx\cdoty^2=6xy^2$

36, x^2, y^4 are perfect squares so the answer is 6xy^2 .

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Example Question #21 : Factoring Radicals

Simplify:

$\sqrt{72x^2y^4z^9}$

Possible Answers:

$6xy^2z^4\sqrt{2}$

$6xy^2z^4\sqrt{z}$

$\sqrt{2z}$

$6xy^2z^4\sqrt{2z}$

6xy^2z^4

Correct answer:

$6xy^2z^4\sqrt{2z}$

Explanation:

To simplify this expression, I like to think of it in terms of a factor tree. I simplify it down to its fully factored form and then for every pair of the same number, I place that number on the outside of the radical sign and cross out the pair.

The fully factored form is:

$3\cdot 3\cdot 2\cdot 2\cdot 2\cdot x\cdot x\cdot y\cdot y\cdot y\cdot y\cdot z\cdot z\cdot z\cdot z\cdot z\cdot z\cdot z\cdot z\cdot z\cdot$ .

Then, when I account for the pairs that have been crossed out, the expression on the outside of the radical sign is:

$3\cdot 2\cdot x\cdot y\cdot y\cdot z\cdot z\cdot z\cdot z$ .

Left on the inside of the radical sign is $2\cdot z.$

Then, put all of that together to get:

$6xy^2z^4\sqrt{2z}$ .

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Example Question #21 : Factoring Radicals

How could you re-write $\sqrt{468 x^{24} y^{91}}$ in simplified form?

Possible Answers:

$36x^{12} y ^ {45} \sqrt{13 xy}$

$2x^{12 } y ^{45} \sqrt { 117y}$

$6x^{12}y^{45} \sqrt{13y}$

$13xy \sqrt{6y}$

$x^{12} y^{45.5}\sqrt{468}$

Correct answer:

$6x^{12}y^{45} \sqrt{13y}$

Explanation:

First, factor the coefficient:

Factor tree last one

It's definitely not obvious that 13 goes into 117 unless you examine the potential answers.

We can see that we have a group of two 2's, and a group of two 3's, so those will be on the outside of the radical. We also have 13 leftover.

Now we can look at the variables. We have $x^{24}$ which can easily be re-written as $(x^{12})^2$ . This means that when we take the square root we'll get $x^{12}$ .

We have $y^{91}$ which can almost just as easily be written as $y*y^{90}$ , which is helpful because 90 is an even number. That can be re-written as $y*(y^{45})^2$ , so when we take the square root we will get $y^{45}$ with one leftover.

Putting this all together gives:

$2*3 * x^{12} * y ^ {45 } \sqrt {13 * y } = 6 x^{12} y^{45} \sqrt {13y}$

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Example Question #22 : Factoring Radicals

Which expression is the simplified equivalent of $\sqrt[3] {2000 x^4 y^5 z^6 }$ ?

Possible Answers:

$25 x y^2 z^3 \sqrt[3] {2xy}$

$100 x^2 y^2 z^3 \sqrt[3] {20 y^2 }$

$10 x y z^2 \sqrt[3] { 2xy^2 }$

$1000 x^3 y^3 z^6 \sqrt [3 ] { 2 x y^ 2 }$

$10 x^2 y^2 z^3 \sqrt[3 ] {20y}$

Correct answer:

$10 x y z^2 \sqrt[3] { 2xy^2 }$

Explanation:

First, factor 2000. We don't have to break it down into prime factors before we encounter a clear cubic number:

Factor tree d

Now we can look at the variables. Know that if you take the cube root of something to the third, you get that thing back. In other words, $\sqrt[3] {x^3 } = x$ .

x^4 = x*x*x*x = x*x^3 so when we take the cube root we get with one leftover.

y^5 = y*y*y*y*y = y^2 * y^3 so when we take the cube root we get with y^2 leftover.

z^6 = z*z * z * z * z * z = (z*z)*(z*z)*(z*z ) = (z^2)^3 so when we take the cube root we get z^2 and nothing is leftover.

Putting this all together, we get:

$10 * x * y * z^2 \sqrt[3] {2*x * y^2 } = 10xyz^2 \sqrt[3] {2xy^2}$

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Example Question #21 : Factoring Radicals

Simplify $\sqrt{540 x^4 y^6}$ by factoring.

Possible Answers:

$36x^2 y^4 \sqrt {5}$

$6x^2 y^3 \sqrt{15}$

$5x^2 y^3 \sqrt{8}$

$15 x^4 y^6 \sqrt{6}$

$18x^4 y^6 \sqrt{5}$

Correct answer:

$6x^2 y^3 \sqrt{15}$

Explanation:

First, break 540 into its prime factors:

Factor tree

Its factors are 2*2*3*3*3*5 . Within these factors we can recognize one pair of two 2's, and one pair of two 3's. That leaves a 3 and a 5 unmatched.

What this means is that we will have 2*3 on the outside of the radical since we were able to take the square root of these pairs. Then we will have 3*5 left on the inside since we can't take the square root of those.

Now we can look at the variables. Both have even powers:

x^4 = x*x*x*x = (x*x)*(x*x) = (x^2)^2 so the square root of that would be x^2 . We can put x^2 on the outside of the radical.

y^6 = (y^3)^2 so the square root is y^3 , and we can put that on the outside of the radical.

All of this together gives us $2*3*x^2 * y^3 \sqrt{3*5}$ or $6x^2 y^3 \sqrt{15}$

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Example Question #25 : Simplifying Radicals

Simplify this radical expression by factoring:

$\sqrt[3]{-108x^5 y^9}$

Possible Answers:

$3y^3x^2 \sqrt[3]{4x^3}$

$-3x^3 y^9 \sqrt[3]{-4x^2 }$

$-27x^3y^9 \sqrt[3] {4x^2 }$

$-3xy^3 \sqrt[3]{4x^2 }$

$-6x^2 y^4 \sqrt[3]{-3xy}$

Correct answer:

$-3xy^3 \sqrt[3]{4x^2 }$

Explanation:

First, factor -108:

Factor tree b

We see that there is only one group of 3, the -3's

Note that this could be factored in a different way with respect to negatives:

Factor tree off signs

If you did it this way, then there would still be a group of 3 3's and the negative would be inside the radical. That works, but conventionally the cube root of a negative number is negative, so it would seem to make more sense to move the negative outside the radical since we can.

Next, look at the variables. First, y^9 =( y^3)^3 so the cube root of that is y^3 .

We can think about x^5 as x^3*x^2 . We can take the cube root of x^3 and get x, then have x^2 leftover.

Putting this all together, our answer is $-3 * y^3 * x \sqrt[3] {2*2 *x^2 }$ .

Simplifying gives $-3xy^3 \sqrt[3]{4x^2}$ .

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Example Question #26 : Simplifying Radicals

Simplify: $\sqrt{72w^4x^6y^9}$

Possible Answers:

$w^2x^3y^4\sqrt{2y}$

$6w^2x^3y^4\sqrt{2y}$

$6w^2x^3y^4\sqrt{2}$

6w^2x^3y^4

$6w^2x^3y^4\sqrt{y}$

Correct answer:

$6w^2x^3y^4\sqrt{2y}$

Explanation:

To simplify this expression, I like to look at each term separately. First, I factor 72 down to its prime factors: $3\cdot 3\cdot 2\cdot 2\cdot 2$ . Since we're dealing with a square root, for every pair of the same number, we cross it out underneath the radical and keep the loners underneath the radical sign: $3\cdot 2\sqrt{2}=6\sqrt{2}$ . Do the same for all of the , , and terms. is the only one that has a loner underneath the radical. Multiply all of the terms to get your answer: $6w^2x^3y^4\sqrt{2y}$

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Example Question #4011 : Algebra Ii

Simplify the radical $\sqrt{375}$

Possible Answers:

$3\sqrt{25}$

$3\sqrt{15}$

$25\sqrt{3}$

$5\sqrt{15}$

$25\sqrt{15}$

Correct answer:

$5\sqrt{15}$

Explanation:

To simplify $\sqrt{375}$ we must break 375 into factors that we know the square root of. We do this because 375 is not a perfect square like 9 or 25. It is important to choose factors that have a perfect square so that we only deal with whole numbers.

$\sqrt{375}$

$\sqrt{25*15}$

$\mathbf{5\sqrt{15}}$

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Algebra II : Algebra II

Study concepts, example questions & explanations for Algebra II

All Algebra II Resources

Example Questions

Example Question #4011 : Algebra Ii

Example Question #4012 : Algebra Ii

Example Question #15 : Simplifying Radicals

Example Question #21 : Factoring Radicals

Example Question #21 : Factoring Radicals

Example Question #22 : Factoring Radicals

Example Question #21 : Factoring Radicals

Example Question #25 : Simplifying Radicals

Example Question #26 : Simplifying Radicals

Example Question #4011 : Algebra Ii

All Algebra II Resources

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