\( 351 \cdot \frac{4 x-1}{3}-\frac{9 x-4}{7}-\frac{x}{2}+\frac{10}{7}=\frac{x-5}{6}+\frac{2 x+3}{14} \) \( 352 \cdot x-\frac{x+2}{6}+1=\frac{2 x-1}{2}-\frac{x}{3}+\frac{3(x-1)}{2} \) 353. \( \frac{5(2-x)}{8}+\frac{3(x+1)}{20}=\frac{x+3}{4}-\frac{2(x-1)}{5}-\frac{3}{8} x \) 354. \( -\frac{1}{6}=\frac{2}{5}(x-1)-\frac{x-2}{3}-\frac{2 x+3}{6}+\frac{2}{5} \) \( 356 \cdot \frac{2+3 x}{3}-4+x=\frac{2(x-5)}{4}-\frac{3(2 x+1)}{8}+\frac{1}{12} \) \( 357 . \frac{2}{3}(3 x+3)+2 x=\frac{2}{3}(x-1)+(3 x-1) \)
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Beyond the Answer
Did you know that equations like these, featuring variables and fractions, can often wrestle with historical roots from ancient civilizations? The Babylonians were among the first to use algebraic methods to solve a wide range of problems, employing an early form of what we now recognize as equations. They tackled tasks from architectural design to the measurement of land, laying the groundwork for the more complex algebra we enjoy today! Now, when it comes to solving such equations, a common mistake is to overlook the importance of finding a common denominator when working with fractions. Always remember to simplify both sides of the equation before proceeding with further steps! Also, balancing your equation is crucial; if you add or subtract something on one side, you must do the same on the other. This will keep your equations equal and avoid hiccups along the way. Happy solving!
