Perfect squares are numbers that have integer square roots. Simplifying square roots involves trying to decompose the radicand into a product that includes perfect squares if this cannot be done, the square root is in simplified form. This is because when any real number is squared, it is positive, since a positive number multiplied by a positive number is positive and a negative number multiplied by a negative number is also positive. Note that the square root of every positive real number has two solutions, a negative and a positive one. Thus, the process of finding the square root of a number involves determining what number, when multiplied by itself (squared), yields the value under the radical symbol. For any other root, such as a cubed root (n = 3), n will be specified.Īs an example, √ 4, read as the "square root of four," is equal to ☒, since (☒) 2 = 4. ![]() It is important to note that in cases where n is not specified, the root is assumed to be the square root by convention. The square root is a specific case in which n = 2, and is the most commonly used root, though n can be any integer. In other words, we can rewrite the above expression as: ![]() The n th root of a number is the number r, that when raised to the index n, is equal to x. Where n is the index, x is the radicand, and r is the n th root. The n th root of a number is denoted using the following notation: ![]() To use the calculator, provide a value and click the "Calculate" button. If the number is an integer smaller than 10 trillion, it will also provide the simplified form of the radical. This calculator can be used to find the approximate value of the square root of a positive number.
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