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Algebra II : Adding and Subtracting Radicals

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Example Question #151 : Radicals

Solve.

$\sqrt{9}+\sqrt{4}+\sqrt{1}$

Possible Answers:

$\sqrt{9}+\sqrt{4}+\sqrt{1}$

$\sqrt{12}$

$\sqrt{941}$

$\sqrt{14}$

Correct answer:

Explanation:

When adding and subtracting radicals, make the sure radicand or inside the square root are the same.

If they are the same, just add the numbers in front of the radical.

Looking carefully at the radicand we will notice that each radicand is a perfect sqare. This means we are able to reduce the radical into an integer.

9, 4, and are all sqaure numbers so instead we have a simple algebraic problem:

$\sqrt9+\sqrt4 +\sqrt1=\sqrt{3\cdot 3}+\sqrt{2\cdot 2}+\sqrt{1\cdot 1}=3+2+1$ which the answer is .

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Example Question #152 : Radicals

Solve.

$\sqrt{49}-\sqrt{16}-\sqrt{9}$

Possible Answers:

$\sqrt{24}$

$\sqrt{74}$

$\sqrt{42}$

Correct answer:

Explanation:

When adding and subtracting radicals, make the sure radicand or inside the square root are the same.

If they are the same, just add the numbers in front of the radical.

Looking carefully at the radicand we will see that each radicand is a perfect square. Therefore, we are able to reduce all of the radicals into simple integers.

49, 16, and are all sqaure numbers so instead we have a simple algebraic problem:

$\sqrt{49}-\sqrt{16}-\sqrt9=\sqrt{7\cdot 7}-\sqrt{4\cdot 4}-\sqrt{3\cdot 3}=7-4-3$ which the answer is .

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Example Question #4 : Radicals

Solve.

$\sqrt{3}+5\sqrt{3}+8\sqrt{3}$

Possible Answers:

$13\sqrt{3}$

$20\sqrt{3}$

$\sqrt{3}+5\sqrt{3}+8\sqrt{3}$

$14\sqrt{3}$

Correct answer:

$14\sqrt{3}$

Explanation:

When adding and subtracting radicals, make the sure radicand or inside the square root are the same.

If they are the same, just add the numbers in front of the radical. If they are not the same, the answer is just the problem stated.

Since they are the same, just add the numbers in front of the radical: 1+5+8 which is 14.

Therefore, our final answer is the sum of the integers and the radical:

$14\sqrt3$

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Example Question #153 : Radicals

Solve.

$20\sqrt{5}-13\sqrt{5}-\sqrt{5}$

Possible Answers:

$6\sqrt{5}$

$18\sqrt{5}$

$20\sqrt{5}-13\sqrt{5}-\sqrt{5}$

$\sqrt{5}$

$34\sqrt{5}$

Correct answer:

$6\sqrt{5}$

Explanation:

When adding and subtracting radicals, make the sure radicand or inside the square root are the same.

If they are the same, just add the numbers in front of the radical.

If they are not the same, the answer is just the problem stated.

Since they are the same, just subtract the numbers in front: 20-13-1 which is

Therefore, our final answer is this sum with the radical added to the end:

$6\sqrt5$

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Example Question #5 : Radicals

Solve.

$\sqrt{5}+6\sqrt{5}-4\sqrt{5}$

Possible Answers:

$6\sqrt{5}$

$-3\sqrt{5}$

$3\sqrt{5}$

$7\sqrt{5}$

$-6\sqrt{5}$

Correct answer:

$3\sqrt{5}$

Explanation:

When adding and subtracting radicals, make the sure radicand or inside the square root are the same.

If they are the same, just add the numbers in front of the radical.

If they are not the same, the answer is just the problem stated.

Since they are the same, just add and subtract the numbers in front: 1+6-4 which is

Therefore, the final answer will be this sum and the radical added to the end:

$3\sqrt5$

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Example Question #154 : Radicals

Solve.

$\sqrt{8}+\sqrt{2}$

Possible Answers:

$\sqrt{8}+\sqrt{2}$

$3\sqrt{2}$

$\sqrt{10}$

$\sqrt{6}$

Correct answer:

$3\sqrt{2}$

Explanation:

When adding and subtracting radicals, make the sure radicand or inside the square root are the same.

If they are the same, just add the numbers in front of the radical.

If they are not the same, the answer is just the problem stated.

Even though it's not the same, double check you can simplify the radicand. Look for perfect squares. Since $4\cdot 2 = 8$ and is a perfect square, we can rewrite like this: $\sqrt{8}=\sqrt{4\cdot 2}=2\sqrt{2}$ .

Now we have the same radicand, we can now add them easily to get $3\sqrt{2}$ .

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Example Question #155 : Radicals

Solve.

$\sqrt{75}-2\sqrt{3}$

Possible Answers:

$3\sqrt{78}$

$2\sqrt{3}$

$3\sqrt{3}$

$-\sqrt{72}$

$-\sqrt{78}$

Correct answer:

$3\sqrt{3}$

Explanation:

Even though it's not the same, double check you can simplify the radicand. Look for perfect squares.

Since $25\cdot 3 = 75$ and is a perfect square, we can rewrite like this: $\sqrt{75}=\sqrt{25\cdot 3}=5\sqrt{3}$ .

Now we have the same radicand, we can now subtract them easily to get $3\sqrt{3}$ .

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Example Question #61 : Simplifying Radicals

Solve.

$\sqrt{200}+\sqrt{50}$

Possible Answers:

$15\sqrt{2}$

$\sqrt{150}$

100

$\sqrt{200}+\sqrt{50}$

$\sqrt{250}$

Correct answer:

$15\sqrt{2}$

Explanation:

Even though it's not the same, double check you can simplify the radicand. Look for perfect squares.

Since $100\cdot 2 = 200$ , $25\cdot 2=50$ and 100 and are perfect squares, we can rewrite like this:

$\sqrt{200}=\sqrt{100\cdot 2}=10\sqrt{2}$ and $\sqrt{50}=\sqrt{25\cdot 2}=5\sqrt{2}$ .

Now that we have the same radicand, we can add them easily to get:

$10\sqrt{2}+5\sqrt{2}$

$15\sqrt{2}$ .

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Example Question #61 : Simplifying Radicals

Solve.

$2\sqrt{100}+8\sqrt{16}-5\sqrt{175}$

Possible Answers:

$2\sqrt{100}+8\sqrt{16}-5\sqrt{175}$

$52-25\sqrt{7}$

$5\sqrt{3}$

$27\sqrt{7}$

$\sqrt{7}$

Correct answer:

$52-25\sqrt{7}$

Explanation:

Even though it's not the same, double check you can simplify the radicand. Look for perfect squares. 100 and are perfect squares so we can rewrite like this:

$2\sqrt{100}=2\sqrt{10\cdot 10}=2\cdot 10=20$

$8\sqrt{16}=8\sqrt{4\cdot 4}=8\cdot4=32$

Since $25\cdot 7 = 175$ and is a perfect square, we can rewrite like this:

$5\sqrt{175}=5\sqrt{25\cdot7}=5\cdot5\sqrt{7}=25\sqrt{7}$ .

Lets add everything up.

$20+32-25\sqrt{7}$ $=52-25\sqrt{7}$ .

The reason this is the answer, because the is associated with the radical and we can't subtract a whole number with the radical. They are not the same.

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Example Question #61 : Simplifying Radicals

Solve.

$\sqrt{512}+\sqrt{32}-\sqrt{72}-\sqrt{75}+\sqrt{48}$

Possible Answers:

$\sqrt{512}+\sqrt{32}-\sqrt{72}-\sqrt{75}+\sqrt{48}$

$13\sqrt{2}$

$13\sqrt{6}$

$14\sqrt{2}-\sqrt{3}$

$13\sqrt{3}$

Correct answer:

$14\sqrt{2}-\sqrt{3}$

Explanation:

When adding and subtracting radicals, make the sure radicand or inside the square root are the same. If they are the same, just add the numbers in front of the radical. If they are not the same, the answer is just the problem stated. Even though it's not the same, double check you can simplify the radicand. Look for perfect squares.

Since

$256\cdot 2 = 512, 16\cdot2=32, 36\cdot2=72, 25\cdot3=75, 16\cdot3=48$ and 256, 16, 36, 25 are perfect squares, we can rewrite like this:

$\sqrt{512}=\sqrt{256\cdot2}=16\sqrt{2}$

$\sqrt{32}=\sqrt{16\cdot2}=4\sqrt{2}$

$\sqrt{72}=\sqrt{36\cdot2}=6\sqrt{2}$

$\sqrt{75}=\sqrt{25\cdot3}=5\sqrt{3}$

$\sqrt{48}=\sqrt{16\cdot3}=4\sqrt{3}$

Lets add everything up.

$16\sqrt{2}+4\sqrt{2}-6\sqrt{2}-5\sqrt{3}+4\sqrt{3}=14\sqrt{2}-\sqrt{3}$

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Algebra II : Adding and Subtracting Radicals

Study concepts, example questions & explanations for Algebra II

All Algebra II Resources

Example Questions

Example Question #151 : Radicals

Example Question #152 : Radicals

Example Question #4 : Radicals

Example Question #153 : Radicals

Example Question #5 : Radicals

Example Question #154 : Radicals

Example Question #155 : Radicals

Example Question #61 : Simplifying Radicals

Example Question #61 : Simplifying Radicals

Example Question #61 : Simplifying Radicals

All Algebra II Resources

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