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Q: Calculation of square roots

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+6 and -6 are the square roots of 36.

The square roots are -1.07 and +1.07The square roots are -1.07 and +1.07The square roots are -1.07 and +1.07The square roots are -1.07 and +1.07

square inches do not have square roots only number have square roots.

The two square roots of 400 are: 20 and -20.

The square roots of 529 are: ± 23.

The square roots of 4,900 are: 70 and -70.

The abacus is a calculation aid. It is usually only used for addition and subtraction but experts can (with effort) perform multiplication, division, and even operations as difficult as square roots and cube roots.It is not a calculator (it only provides storage one of the numbers, the user still is doing the calculation) or a computer (which must automate calculations).

Perfect square roots are square roots that have a whole number that can go into it perfectly. Nonperfect square roots are square roots that have decimal numbers going into it. Example: Perfect Square Root: 144- Square Root: 12 Nonperfect Square Root: 24- Square Root: About 4.89

The answer depends on "different from WHAT?" Positive cube roots, or negative square roots?

The square roots of 8100 are 90, -90

You call them principal square roots.

The square roots of 64 are +8 and -8.

Both 9 and -9 are square roots of 81

No. The square roots 8 are irrational, as are the square roots of most even numbers.

There are no real square roots of -256. But using complex numbers the square roots of -256 are 16i and -16i.

The positive square root of 115 lies between the positive square roots of 114 and 116.The positive square root of 115 lies between the positive square roots of 114 and 116.The positive square root of 115 lies between the positive square roots of 114 and 116.The positive square root of 115 lies between the positive square roots of 114 and 116.

No. Lots of square roots are not rational. Only the square roots of perfect square numbers are rational. So for example, the square root of 2 is not rational and the square root of 4 is rational.

Suan-pan tray, which developed in China around 200BC. Suan-pan is an abacus for various calculations including counting, addition, subtraction, multiplication, division, square roots and cube roots. This is recored earliest device use for mathematical calculation

The square roots of 196 are 14 and -14.

The two square roots of 36 are 6 and -6.

256 has two square roots: 16 and -16.

You just figure out the square roots and than subtract them...

The square roots of 114 are approx 10.6771 and -10.6771

A number multiplied by itself is the square of that number. The reverse procedure is the square root. You can get help for square roots from you teacher, a tutor, a student who understands square roots, etc.

0.64 has square roots {0.8, -0.8}.