False
√4 + √6 = 2 + √6, which does not equal √10.
True or false
√4 + √6 = 2 + √6, which does not equal √10.
5√5 - 3√5
-in simplest form
-not in simplest form
3√200
2√6
2√6 - in simplest form
3√54-
√32-
3√2
4√2
3√54 simplifies to 3√(9 * 6), which is equal to 3 * 3√6. Therefore, the simplest form is 9√6.
√32 simplifies to √(16 * 2), which is equal to 4√2. Therefore, the simplest form is 4√2.
3√2 is already written in simplest form.
4√2 is already written in simplest form.
√32 - 4√2
3√54 - 3√2
Is this correct
The correct matches are:
√32 - 4√2 (already in simplest form)
3√54 - 9√6
So the correct matches are:
√32 - 4√2
3√54 - 9√6
To simplify √54, we break it down into prime factors: √(2^1 * 3^3). We can take out one factor of 3 from the square root, leaving us with 3√(2 * 3). Thus, the simplest form of √54 is 3√6.
To simplify 3√54, we first find the prime factorization of 54:
54 = 2 * 3 * 3 * 3
Next, we group the factors of 3 together and take the cube root:
3√54 = 3√(3 * 3 * 3 * 2)
Simplifying further:
3√54 = 3 * 3√(3 * 2)
So, the simplest form of 3√54 is 9√6.
-You can show me a factor tree
- you can show me a list of perfect squares
- you can write out an explanation
Explanation:
To simplify √56, we want to find the largest perfect square that is a factor of 56. By prime factorizing 56, we get: 2 * 2 * 2 * 7. Taking out pairs of factors, we have √(2 * 2 * 2 * 7) = 2 * 2 * √7 = 4√7. Therefore, the simplest form of √56 is 4√7.
Factor Tree:
We can represent the prime factorization of 56 as a factor tree:
56
/ \
2 28
/ \
2 14
/ \
2 7
From the factor tree, we can see that 2 * 2 * 2 = 8 is the largest perfect square that divides 56. We can take it out of the square root sign. So we have √56 = 2 * 2 * √7 = 4√7 as the simplest form.
First, let's find a big number that you can multiply by itself to get as close to 56 as possible. We know that 7 * 7 = 49, and 8 * 8 = 64. Since 49 is smaller than 56 and 64 is bigger, we can use 49.
Now, let's divide 56 by 49. We get 56 / 49 = 1 with a remainder of 7.
So, we can write √56 as √(49 + 7).
Since 49 can be written as √49 and it's a perfect square, we can simplify it as 7.
Therefore, √56 = 7√1 + √7.
And since √1 is just 1, we have 7 * 1 + √7 = 7 + √7 as our final answer.
So, the simplest form of √56 is 7 + √7.
To clarify, 4√7 and 7 + √7 are equivalent. Both forms are simplified, but the second form is in a different format where the non-square root term (7) is separate from the square root term (√7).