CIV E 444 - APPLIED HYDRAULICS FALL 2009 HOMEWORK No. 3 SOLUTION The formula is: So = (f/8) F2 f / 8 = 0.016 / 8 = 0.002 So = 1 = 0.002 F2 F = (1 / 0.002)1/2 = 22.3 Use ONLINE CHANNEL 15 with the given data to calculate: Q = 21,618 cfs. V = 3.659 fps. F = 0.18. Since Q/Qo is independent of the slope or roughness, use ONLINE CHANNEL 03 for given input set:   D = 3 ft, S = 0.01, n = 0.013. Try varying flow depth from y = 2.7 ft to 3.0 ft, in increments of Δy = 0.03 ft. Find maximum Q = 71.74 cfs at y = 2.82 ft. Therefore, the maximum discharge in a circular culvert occurs when the flow depth is (2.82/3.00) × 100 = 94% of the diameter. Use ONLINE CHANNEL 01 with Q = 18,000 cfs, b = 380 ft, z = 3, S = 0.0001, n - 0.022 to find: Design flow depth y = 12.573 ft.