ARTICLES

In order to simplify square roots with variables that are to be multiplied, treat the variables as factors. Once the radicands are factored completely, cancel any like terms and multiply the simplified square roots.

www.reference.com/article/simplify-multiplying-square-roots-variables-c9826dff41d5c1f9

The square root of five is 2.236. The square root of a number is any number that, when multiplied by itself, has a product equal to the first number. Thus, 2.236 x 2.236 = 5.

www.reference.com/article/square-root-5-b732a0fa6bfa5228

The square root of 41 is 6.40. The square root of a number is another number that, when multiplied by itself, has a product equal to the first number.

www.reference.com/article/square-root-41-e936401435c241d5

SIMILAR ARTICLES

A good method for multiplying fractions with exponents is to factor, cancel and simplify. This works whether the exponent is attached to a variable or a numeral.

www.reference.com/article/method-multiplying-fractions-exponents-f4eec1cdac43cf93

The steps for multiplying polynomials with exponents vary depending on the complexity of the polynomials. If the equation has only one variable, the answer can be found by multiplying the individual terms, combining the ...

www.reference.com/article/steps-multiplying-polynomials-exponents-299aa4e64fe0311

A perfect square-root chart lists the integer roots of numbers that have no fractional component. Multiplying these square roots by themselves results in designated perfect squares. For example, the square root of nine i...

www.reference.com/article/list-perfect-square-roots-2f6335a4ae3f174

To two decimal places, the square roots of 29 are 5.39 and -5.39. Multiplying either of these roots by itself equals 29, therefore satisfying the definition of a square root.

www.reference.com/article/square-root-29-7f541ddcccc36f5d