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The function is Sqr() in VB6 and Math.Sqr() in .NET.

Q: How do you get square root in Microsoft visual basic?

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Most processors have a special symbol key; on Microsoft Word go to "INSERT" then "SYMBOLS" and look for it there

The square root of 25 is 5 ... rational.

147 49,3 7,7,3 The square root of 147 equals the square root of 49 times the square root of 3 which is 7 times the square root of 3.

Yes. For example, the square root of 1 is 1, and the square root of 4 is 2.

10 and 12. 10 is the square root of 100, and 12 is the square root of 144. The square root of 139 is about 11.79

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x ^ (1 / 3)

One definition of "root" is "the basic cause, source, or origin of something." The source of a perfect square is the number that was multiplied by itself to create it: the root of the square, the square root.

Constant, Identitiy f, Absolute, Square root, square, and Cube root function * * * * * There are four basic functions and these are addition, subtraction, multiplication and division.

Yes, that is correct. It is one of the basic properties of surds, and is used in many identities and some equations, to simplify and calulate and prove.

To type a square root symbol in Microsoft Word, you can use the following steps: Go to the "Insert" tab, click on "Equation" in the Symbols group, and then select "Square Root" from the options provided. This will insert a square root symbol into your document.

It depends on the level that you are at. For more advanced mathematics, the square root of -1 is a number, denoted by i. It is a basic element of complex numbers and is called the imaginary root of -1.

A negative number cannot have a square root in basic mathematics. However, in more advanced mathematics, you will study complex numbers. And there you will find that the square roots of -80 are Â± 8.944*i where i is the imaginary square root of -1.Incidentally, Â± 8.944 are the square roots of +80.

The square root of the square root of 2

The 8th root

square root of (2 ) square root of (3 ) square root of (5 ) square root of (6 ) square root of (7 ) square root of (8 ) square root of (9 ) square root of (10 ) " e " " pi "

There are infinitely many of them. They include square root of (4.41) square root of (4.42) square root of (4.43) square root of (4.44) square root of (4.45) square root of (5.3) square root of (5.762) square root of (6) square root of (6.1) square root of (6.2)

It's not a square if it has no root. If a number is a square then, by definition, it MUST have a square root. If it did not it would not be a square.