No. For example, in this problem: 903 = 729,000
90 is the cube root, while 729,000 is the cube
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The cube root of 4 to the power of 3 is the same as the cube root of 64, which equals 4. This is because raising a number to the power of 3 and then taking the cube root of that result cancels out the exponentiation. In this case, 4 cubed is 64, and the cube root of 64 is 4.
A cube is a 3 dimensional shape that has 6 faces, 8 vertices and 12 equal edges and its volume is measured in cubic units. Also its other meaning is as for example the cube of 3 is 9 and the cube root of 9 is 3
Two methods on a Casio fx-83MS #1 ; press 'shift' then 'x^(3). Then the number #Then equals #2 ; Press '/' Then '1/3' or 0.3333333333...... Equals NB The power of '1/3(0.3333....) means the 'cube root'.
196's prime numbers are (2) (2) (7) (7). For example, if you square those prime numbers you would get 14. Why? Because u need equal integers within a square root, so that you can take that integer outside the square root. With the same knowledge, we can apply ask the question whether 196 is a cube root. If it's a cube root, then it needs to have 3 same integer (ex: 3x3x3x4x4x4x; 2x2x2x7x7x7). As you can see we don't have third same integer. Also, even if it is 2x2x2x7x7, it cannot be a cube root because it is missing the third 7. So the answer is that 196 is a perfect square and not a perfect cube. Note: you cannot have a square root of a negative integer, if the question is "is -196 a perfect square or a perfect cube", then the answer is neither. Of course you can SQUARE the negative number (ex: (-2)^2=+/- 4), but you cannot mathematically square root a negative number unless your using the imaginary integer "i". I hope it answers your question and just a bit more.
The cube root for a real number is the value that when multiplied by itself three times produces that number. So that the cube root of B is A where A x A x A = B.Examplesthe cube root of 8 is 2... (2x2x2=8)the cube root of 27 is 3...(3x3x3=27)The special cases are 0 and 1, which are by definition their own roots (square roots, cube roots, etc.) because all powers of 0 and 1 are still the same value, zero or 1.Perfect cubes are numbers that can be cube-rooted into an integer.These include the numbers 0, 1, 8, 27, and so forth.Negative numbers can also be perfect cubes.-1x-1x-1=-1-2x-2x-2=-8-3x-3x-3=-27For non-perfect cubes, the root includes a repeating decimal requiring rounding.