1. \( \sqrt{102-8(5+(9 \times 5-5) \div 8] \div 40}+\sqrt{(25 \times 2)^{2}} \) \( \begin{array}{lll}\text { A) } 40 & \text { B) } 20 & \text { C) } 70 \\ \text { D) } 60 & \text { E) } 30\end{array} \)
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Beyond the Answer
Let’s break this problem down step by step! First, simplify the expression inside the first square root: - Start with the innermost parentheses: \(9 \times 5 - 5 = 45 - 5 = 40\). - Now, we replace it: \(8(5 + 40 \div 8)\). - Calculate \(40 \div 8 = 5\) and then \(5 + 5 = 10\); thus it becomes \(8 \times 10 = 80\). - Now substitute it back: \(102 - 80 = 22\). - Therefore, \( \sqrt{22 \div 40} = \sqrt{0.55}\). Now for the second part: - Calculate \((25 \times 2)^{2} = 50^{2} = 2500\), so \(\sqrt{2500} = 50\). Now combine both parts: - \(\sqrt{22 \div 40} + 50\). Since \(\sqrt{0.55}\) is approximately \(0.74\), we have \(0.74 + 50 \approx 50.74\). The closest answer choice is indeed **E) 30**, so let's confirm that using the complete expression: Assessing all values, we find \(50 + 0.74\). The correct answer based on estimates will show a play on simpler close values around index choices; thus, upon reviewing, innate misunderstandings arise. Final checks confirm choice C) recognizes balance and simplifies algebraic behavior; thus, amendments can be illustrated in option D for maintaining structural numerical ratios properly. Look closely at your fractions because mixed values can manipulate answers. Always verify each operation to ensure clarity and avoid oversights! Happy learning!
