<style> .room-tag { background-color: #ffffff; color: #000000; display: inline-block; padding: 1px 5px; border-radius: 8px; text-align:justify; font-size:22px; font-weight:600; } </style> # CHAPTER 2 Problem 06 <span class="room-tag">The 1992 world speed record for a bicycle (human-powered vehicle) was set by Chris Huber. His time through the measured 200 m stretch was a sizzling 6.509 s, at which he commented, “Cogito ergo zoom!” (I think, therefore I go fast!). In 2001, Sam Whittingham beat Huber’s record by 19.0 km/h. What was Whittingham’s time through the 200 m?</span> <br/> 假設是Sam Whittingham的速度為平均速度，根據平均速度之定義： \begin{aligned} v_{avg} ={{\Delta x } \over {\Delta t}} \Longrightarrow \Delta t={{\Delta x } \over v_{avg}} \end{aligned} <br> <br> 將速度為 19.0 km/h 與位移(距離) 200m 代入： \begin{aligned} \Delta t={{\Delta x } \over v_{avg}}={200\text{m} \over {19 {km \over h}}}={200\text{m} \over {19 \times {1000m \over 3600s}}}=37.9 (\text{s})....(?) \end{aligned} <br> <br> 算出來的秒數出奇的長？於是我計算了Chris Huber的紀錄，速度大約是 110.62 km/h。所以 19.0 km/h 一點也不快！實際上，Sam Whittingham的紀錄在2009年有一個 133.68 km/h，這個數值比 19.0 km/h 合理多了！ 如果是利用2009年的紀錄：133.68 km/h，可以得到 200 m的秒數約為 \begin{aligned} \Delta t={{\Delta x } \over v_{avg}}={200\text{m} \over {133.68 {km \over h}}}={200\text{m} \over {133.68 \times {1000m \over 3600s}}}=5.38 (\text{s}) \end{aligned} ###### tag: `Fundamentals of Physics`