The** product **of (3 - √5) (7 - √5) simplifies to 26 - 10√5. To multiply and simplify the expression (3 - √5) (7 - √5), we can use the distributive property of multiplication over addition. Here are the steps: Start by** multiplying **the first terms in each set of parentheses: 3 * 7 = 21. Then multiply the outer terms: 3 * (-√5) = -3√5. Next, multiply the inner terms: -√5 * 7 ...
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Study with Quizlet and memorize flashcards containing terms like 1) Multiply and simplify if possible. ⁴√11 * ⁴√10, 2) What is the simplest form of the expression? ³√24a¹⁰b⁶, 3) What is the simplest form of the product? ³√4x² * ³√8x⁷ and more.
Math Algebra Algebra questions and answers Multiply, and then simplify, if possible. See Example 4.4x3x + 22x
To simplify (6 − 3)(4+ 3), we apply the FOIL method to get 21+ 2 3. This involves multiplying the terms in pairs and combining like terms. The final result of the multiplication is 21 + 2 3.
In Exercises 1–38, multiply as indicated. If possible, simplify any radical expressions that appear in the product. ³√x (³√24x² - ³√x)
To solve this problem, you need to multiply the terms inside the parentheses by the term outside the parentheses. This is done by applying the distributive property, which states that for any real numbers a, b, and c, the equation a* (b + c) = a b + a c holds true.
Theresa L. asked • 10/02/13 Multiply,and then simplify if possible. Assume that all variables represent positive real numbers
[Steps Shown] Multiply, and then simplify if possible. Assume all variables represent positive real numbers.
We have to Multiply and Simplify, if possible. Assume that b is nonzero. 286 91 × − 56 121 b
Math Algebra Algebra questions and answers Multiply, and then simplify if possible.
For all of the multiplying fractions with whole numbers examples that follow, we will be using the following 3-step method for solving: Step 1: Rewrite the whole number as a fraction with a denominator of 1. Step 2: Multiply the numerators together and then multiply the denominators together. Step 3: Simplify if possible.
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Question: Multiply and then simplify if possible. Assume that all variables represent positive real numbers. (x-22+4)2
Darinka M. asked • 03/01/15 Multiply, and then simplify if possible. Assume all variables represent positive real numbers
The simplest expression for the given expression is . Multiplication Mathematically, multiplication implies the product of two numbers. Example, . How to simplify the mathematical expression? The given expression is, Simplify the given expression by multiplying the terms- Thus, the simplest expression for the given expression is .
[See] Multiply, and then simplify if possible. Assume all variables represent positive real numbers. (√7 x-3 √2) (√7 x-3
For example, to multiply 19 5 by 9 4, multiply the numerators: 19 and 9 to get 171. Then multiply the denominators: 5 and 4 to get 20. The product is 171 20. It's important to simplify the resulting fraction if possible, by finding the GCD and dividing both the numerator and denominator by it.
