What Number When Multiplied by Itself Is 11 Greater?

The number is 3. When multiplied by itself, 3 is 9. 9 + 11 = 20.

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The number is 12. 12 multiplied by itself is 144, which is 11 greater than the original number (12).

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When squaring a number, the result is always positive. So, if we're looking for the square of a number that's 11 greater than the original number, we can just add 11 to the number and square that. Let's say the original number is x. Then, the number we're looking for is (x + 11)^2.

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The square root of the number that is 11 greater than the original number can be found by using the following equation:

original number + 11 = new number

where "original number" is the number whose square root is being found, and "new number" is the number that is 11 greater than the original number.

To find the square root of the new number, we take the square root of both sides of the equation. This gives us:

new number = √(original number + 11)

Therefore, the square root of the number that is 11 greater than the original number is √(original number + 11).

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The cube of a number is the number times itself times itself. So, the cube of the number that is 11 greater than the original number would be (11+original number) times (11+original number) times (11+original number).

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First, we need to find the original number. We can do this by subtracting 11 from the number that we're given.

So, if the number that we're given is 11 greater than the original number, that means the original number is

Now that we know the original number, we can find its cube root.

The cube root of a number is the number that, when multiplied by itself three times, equals the original number.

So, in this case, we need to find a number that, when multiplied by itself three times, equals

There are a few ways to go about finding this number, but one way is to use a calculator.

If we take the cube root of , we get

This means that the cube root of the number that is 11 greater than the original number is

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When we are asked to find a given number that is a certain power of another number, we are really just being asked to repeated multiply the number by itself a certain number of times. So, when we are asked to find the fourth power of the number that is 11 greater than the original number, we are really just being asked to multiply the number 11 by itself four times.

This number is 15. So, 15 multiplied by itself four times is 15x15x15x15, or 225.

In general, when we are looking at a number that is a certain power of another number, we can use exponent notation to make our work easier. So, in this case, we would write the number as (15)^4. This says that 15 is being raised to the fourth power, or that we are multiplying 15 by itself four times.

Now, let's look at why we might need to find a number that is a certain power of another number. One common reason is when we are dealing with very large numbers. For example, say we wanted to find the ninth power of the number 2. This number is 512. If we were to try to multiply 2 by itself nine times, it would take us a long time to do all of the calculation by hand. However, if we just use exponent notation, we can do it much more quickly. We would write 2^9, which says that 2 is being raised to the ninth power.

Another reason we might need to use exponent notation is when we are dealing with very small numbers. For example, say we wanted to find the fifth power of the number 0.1. This number is 0.00001. If we were to try to multiply 0.1 by itself five times, we would end up with a very small number that would be hard to work with. However, if we use exponent notation, we can easily see that 0.1 raised to the fifth power is 0.00001.

In general, exponent notation is a very useful tool that can help us to quickly calculate a number that is a certain power of another number.

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The fourth root of the number that is 11 greater than the original number is 4. This is because the original number is 11 less than the number we are taking the fourth root of, and so the result is 4.

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In mathematics, the reciprocal of a number is defined as the number multiplied by itself. The reciprocal of a number that is 11 greater than the original number is the number multiplied by 11. For example, if the original number is 5, then the reciprocal of 5 is 55.

In mathematics, the factorial of a positive integer n, denoted by n!, is the product of all positive integers less than or equal to n. For example,

5! = 5 × 4 × 3 × 2 × 1 = 120.

The value of 0! is 1, according to the convention for an empty product.

The factorial function is formally defined by the product

n! = ∏ k = 1 n k,

where the product is taken over all positive integers k less than or equal to n.

The factorial of a positive integer n, denoted by n!, is the product of all positive integers less than or equal to n. For example,

5! = 5 × 4 × 3 × 2 × 1 = 120.

The value of 0! is 1, according to the convention for an empty product.

The factorial function is formally defined by the product

n! = ∏ k = 1 n k,

where the product is taken over all positive integers k less than or equal to n.

11!=11×10×9×8×7×6×5×4×3×2×1=39,916,800.

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