Please complete using Excel, show steps clearly Given the below laboratory flume velocity and depth data, compute the discharge per unit width. Use Trapezoid integration. The integral is shown...

Please complete using Excel, show steps clearly<br>Given the below laboratory flume velocity and depth data, compute the discharge per unit width.<br>Use Trapezoid integration. The integral is shown generally<br>Description: Given the below laboratory flume velocity and depth data, compute the discharge per unit<br>width. Use Trapezoid integration. The integral is shown generally<br>q =<br>| u(x)dx<br>Depth (m) u (m/s)<br>0.43<br>2.19<br>0.368<br>2.1<br>0.327<br>2.03<br>0.285<br>1.95<br>0.265<br>1.87<br>0.244<br>1.83<br>0.224<br>1.8<br>0.203<br>1.69<br>0.182<br>1.64<br>0.17<br>1.58<br>0.157<br>1.56<br>0.145<br>1.49<br>0.133<br>1.35<br>0.12<br>1.3<br>0.108<br>1.15<br>0.096<br>1.05<br>0.087<br>0.97<br>0.079<br>0.88<br>

Extracted text: Please complete using Excel, show steps clearly Given the below laboratory flume velocity and depth data, compute the discharge per unit width. Use Trapezoid integration. The integral is shown generally Description: Given the below laboratory flume velocity and depth data, compute the discharge per unit width. Use Trapezoid integration. The integral is shown generally q = | u(x)dx Depth (m) u (m/s) 0.43 2.19 0.368 2.1 0.327 2.03 0.285 1.95 0.265 1.87 0.244 1.83 0.224 1.8 0.203 1.69 0.182 1.64 0.17 1.58 0.157 1.56 0.145 1.49 0.133 1.35 0.12 1.3 0.108 1.15 0.096 1.05 0.087 0.97 0.079 0.88

Jun 04, 2022

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Please complete using Excel, show steps clearly Given the below laboratory flume velocity and depth data, compute the discharge per unit width. Use Trapezoid integration. The integral is shown...

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