Question
Section 4 Algebraic fractions TEST 1 Simplify: 1. \( \frac{32 x^{3} y^{2} t}{8 x^{3} y t^{2}} \) \( \rightarrow \frac{2 x+2 y}{6} \div 2 \) 5. \( \frac{x}{2}-\frac{y}{3}+1 \)
Ask by Wagner Mitchell. in South Africa
Mar 17,2025
Upstudy AI Solution
Tutor-Verified Answer
Answer
1. \( \frac{32 x^{3} y^{2} t}{8 x^{3} y t^{2}} = \frac{4y}{t} \)
2. \( \frac{2 x+2 y}{6} \div 2 = \frac{x+y}{6} \)
3. \( \frac{x}{2}-\frac{y}{3}+1 = \frac{3x-2y+6}{6} \)
Solution
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The Deep Dive
First, let's simplify the algebraic fraction \( \frac{32 x^{3} y^{2} t}{8 x^{3} y t^{2}} \). By factoring out common terms, we can cancel \( 8 \) from both the numerator and denominator, as well as \( x^{3} \) and \( y \). This gives us \( \frac{4y}{t} \) after simplification. Now, for the expression \( \frac{x}{2}-\frac{y}{3}+1 \), let's find a common denominator, which is 6. Rewrite each term accordingly to get \( \frac{3x}{6} - \frac{2y}{6} + \frac{6}{6} \), leading to \( \frac{3x - 2y + 6}{6} \). That's how you work with algebraic fractions in style!
