To see all my math videos, check out my channel at http://YouTube.com/MathMeeting. The quickest way to prove this is to take the cube root of the number. We will go over how to expand them in the examples below, but you should also take some time to store these forms in memory, since you'll see them often: Examples. A perfect cube is when you multiply an integer by itself 3 times. At 430 °C, K p = 54.3 for the following reaction: H 2(g) + I 2(g) 2HI(g) A mixture of H 2 at a pressure of 0.500 atm and I 2 at a pressure of 0.500 atm is placed in a container at 430 °C. Note: An integer has no fractional or decimal part, and thus a perfect square (which is also an integer) has no fractional or decimal part. Example: √ 9 = 3 Where: 3 is the original integer. So I now know that, with the "minus" in the middle, this is a difference of two cubes… ( Perfect Squares List from 1 to 10,000. A perfect cube is also a number that has an exact cube root. Note: Numbers that give integers when their square roots are calculated are called perfect cube. The following is a list of perfect Cubes. 8x^12 ⇒ 2x^4 * 2x^4 * 2x^4 27x^9 ⇒ 3x³ * 3x³ * 3x³ Only two monomials are perfect cubes. When the radical is a cube root, you should try to have terms raised to a power of three (3, 6, 9, 12, etc.). Educational Note. (If I didn't remember, or if I hadn't been certain, I'd have grabbed my calculator and tried cubing stuff until I got the right value, or else I'd have taken the cube root of 64.) The second term is 64, which I remember is the cube of 4. Example. If a variable with an exponent has an exponent which is divisible by 3 then it is a perfect cube. 3^3 = 3 * 3 * 3 = 27. A binomial is an expression containing two terms. We no longer need to be concerned about whether we have identified the principal root since we are now finding cube roots. A perfect cube is a number that resulted from multiplying a number three times by itself. 25 is not a perfect cube, since \(\sqrt[3]{25}\) is not a whole number. The smallest perfect cube is 1. The perfect cube forms (x + y) 3 (x+y)^3 (x + y) 3 and (x − y) 3 ( x-y)^3 (x − y) 3 come up a lot in algebra. Aside from factoring out the greatest common factor, there are three types of special binomials that can be factored using special techniques. For example, to simplify a cube root, the goal is to find factors under the radical that are perfect cubes so that you can take their cube root. So, if a cube represents a number multiplied by itself thrice, the cube root of a number represents the number that is multiplied 3 times to give the original number. 4^3 = 4 * 4 * 4 = 64. For example, These types of simplifications with variables will be helpful when doing operations with radical expressions. The polynomial … Taking the square root (principal square root) of that perfect square equals the original positive integer. 2^3 = 2 * 2 * 2 = 8. You can see that there can't be a perfect cube between 2^3 (which is 8) and 3^3 (which is 27). Example: 0^3 = 0 * 0 * 0 = 0. To get the cube root, we simply divide the exponent by 3. It can also be termed simply as Perfect cube. The first five positive perfect cubes are 1, … The perfect cube is the cube of any whole number. Calculate the equilibrium partial pressures of HI, H Let's apply these rule to simplifying the following examples… 125 is a perfect cube, since 5 3 = 125 and 5 is a whole number. Learn how to simplify cube roots in this video. 1 3 = 1 2 3 = 8 3 3 = 27 4 3 = 64 5 3 = 125 6 3 = 216 7 3 = 343 8 3 = 512 9 3 = 729 10 3 = 1000. 1^3 = 1 * 1 * 1 = 1. This section contains the first 100 perfect cubes. Some numbers have special property of being a perfect cube and perfect number. The expression “perfect cube” should not be applied to just any algebraic expression. ⇒ Take the square root of both sides when the math expression is a perfect square. 27, 64, 1000 are some of the perfect cubes.