Explanation Given Information: The provided rational equation is 1 x − 3 − x − 4 x 2 − 9 = 1 . Formula used: There are following steps to solve a rational equation. Step 1: Find the numbers that make a denominator equal to 0, which cannot be solutions. Step 2: Clear the fractions of the rational equation by multiplying both sides of the equation by the LCD. Step 3: Find the solution of the equation by solving the resulting equation. Step 4: Check the solutions by substituting the values in the original rational equation. Addition Principle: a + c = b + c Here, a , b , and c are real numbers, and a = b . Multiplication Principle: a ⋅ c = b ⋅ c Here, c ≠ 0 , and a = b . Zero-Factor Property If a and b are real numbers and if a b = 0 , then a = 0 or b = 0 . Calculation: Consider the provided rational equation, 1 x − 3 − x − 4 x 2 − 9 = 1 First, find those numbers which cannot be the solution of the above equation by equating denominators to zero. Then, x − 3 = 0 and x 2 − 9 = 0 Thus, x = 3 For x 2 − 9 = 0 Add 9 on both sides: x 2 − 9 + 9 = 0 + 9 x 2 = 9 Apply square root on both sides: x 2 = ± 9 x = ± 3 Thus, x = 3 and x = − 3 The equation 1 x − 3 − x − 4 x 2 − 9 = 1 is undefined for x = 3 and x = − 3 , so x ≠ 3 and x ≠ − 3 . Now, find the solution of the equation 1 x − 3 − x − 4 x 2 − 9 = 1 , Factoring the term x 2 − 9 x 2 − 9 = ( x − 3 ) ( x + 3 ) So, the rational equation changes, 1 x − 3 − x − 4 ( x − 3 ) ( x + 3 ) = 1 The denominators of the rational expressions are x − 3 , and ( x − 3 ) ( x + 3 ) . On solving the LCD is ( x − 3 ) ( x + 3 ) . Multiply both sides by ( x − 3 ) ( x + 3 ) : ( x − 3 ) ( x + 3 ) ( 1 x − 3 − x − 4 ( x − 3 ) ( x + 3 ) ) = ( x − 3 ) ( x + 3 ) ( 1 ) Apply the distributive property, ( x − 3 ) ( x + 3 ) ⋅ ( 1 x − 3 ) − ( x − 3 ) ( x + 3 ) ⋅ ( x − 4 ( x − 3 ) ( x + 3 ) ) = ( x − 3 ) ( x + 3 ) Simplify the terms, ( x − 3 ) ( x + 3 ) ( x − 2 ) −

Pearson eText Elementary and Intermediate Algebra: Concepts and Applications -- Instant Access (Pearson+)

7th Edition

ISBN: 9780137361847

Author: Marvin Bittinger, David Ellenbogen

Publisher: PEARSON+

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Chapter R.6, Problem 49ES

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To calculate: The solution of the rational equation 1x−3−x−4x2−9=1.

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Chapter R.6, Problem 48ES

Chapter R.6, Problem 50ES

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Pearson eText Elementary and Intermediate Algebra: Concepts and Applications -- Instant Access (Pearson+)

Ch. R.1 - Prob. 1YT Ch. R.1 - Prob. 2YT Ch. R.1 - Prob. 3YT Ch. R.1 - Prob. 4YT Ch. R.1 - Prob. 5YT Ch. R.1 - Prob. 6YT Ch. R.1 - Prob. 7YT Ch. R.1 - Prob. 8YT Ch. R.1 - Prob. 9YT Ch. R.1 - Prob. 1ES

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The solution of the rational equation 1 x − 3 − x − 4 x 2 − 9 = 1 .

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