1. A trapezoidal channel carrying 11.5 m3/s clear water is built with concrete (no erodible) channel...

Design a gravel riprap-lined trapezoidal channel to carry 11.33 m3/s by considering the best hydraulic section...

Design a gravel riprap-lined trapezoidal channel to carry 11.33 m3/s by considering the best hydraulic section with a slope S0 = 0.0016. Solve the problem using the tractive force method from the textbook (Chapter 15.3.2). (Note: you need to find the gravel size so that the design criteria are satisfied).

A trapezoidal channel (Manning, n = 0.012) is to be designed to carry a discharge of...

A trapezoidal channel (Manning, n = 0.012) is to be designed to carry a discharge of 14 m3/s at a slope of 0.003. The sides slope is to be fixed at 1V: 1.5H. Determine the dimensions of the channel based on the best hydraulic section criteria. Check the adequacy of the design in term of its Froude number.

Design a trapezoidal concrete lined channel (n = 0.013) to convey 3m3 /sec on a slope...

Design a trapezoidal concrete lined channel (n = 0.013) to convey 3m3 /sec on a slope of 0.0004. Assume the use of a best hydraulic section for the design. Express your answers to the nearest mm.

A hydraulic jump is formed in a trapezoidal channel of 2.0-m bed width, 1:1 side slope,...

A hydraulic jump is formed in a trapezoidal channel of 2.0-m bed width, 1:1 side slope, and carrying a discharge of 6.0 m3/s. The initial and final depths of the jump are 0.5m and 2.0m, respectively. Concrete blocks are placed to stabilize the jump. Cf = 0.6. Construct the M-y diagram for the channel section. Find the critical depth.

A concrete, trapezoidal channel with a 5-m bottom width and side slopes of 1:1 (H:V) discharges...

A concrete, trapezoidal channel with a 5-m bottom width and side slopes of 1:1 (H:V) discharges 35 m3/sec. The bottom slope of the channel is 0.004. A dam is placed across the channel and raises the water level to a depth of 3.4 m. determine the channel and flow classification (e.g., M-2, S-1) upstream of the dam and explain your supporting logic. then compute the water surface profile at 50-m intervals until you reach the hydraulic jump. Use a spreadsheet...

A discharge of 4.25 m3 /s occurs within a trapezoidal channel with a base width of...

A discharge of 4.25 m3 /s occurs within a trapezoidal channel with a base width of 3m, 3:1 side slopes (i.e. Z = 3), a longitudinal bed slope of 0.0009 m/m with a Manning’s roughness coefficient of 0.025 (i.e. sand). State the normal flow depth (yn) critical flow depth (yc) and the Froude Number of the flowing water.

Water is flowing uniformly in a finished-concrete channel of trapezoidal cross section with a bottom width...

Water is flowing uniformly in a finished-concrete channel of trapezoidal cross section with a bottom width of 0.7 m, trapezoid angle of 50°, and a bottom angle of 0.45°. If the flow depth is measured to be 0.45 m, determine the flow rate of water through the channel. Manning coefficient (n) for finished concrete is 0.012.

A trapezoidal channel is to be designed for conveying 10,0000 ft^3 of water per minute. Determine...

A trapezoidal channel is to be designed for conveying 10,0000 ft^3 of water per minute. Determine the cross sectional dimensions of the channel if the bed slope is 1 in 1600, the side slopes are inclined at 45 degrees, and the cross section is to be minimized (R = y/2). Use C=90 in the Chezy formula.

7. A) Find the depth of water flowing through a triangular channel having a bed slope...

7. A) Find the depth of water flowing through a triangular channel having a bed slope of 1 in 3500 and side slope of 1:1, when it carries 1.2 m3/s. Take Manning’s Coefficient N = 0.014 B) For a most economical trapezoidal section of side slope 2h: 5V, bed slope of 1 in 2000 and C = 50. Find the rate of flow if the bottom width of the channel is 5 m.

2. (a)   A channel has a triangular cross section with equal sides, a bed slope of...

2. (a)   A channel has a triangular cross section with equal sides, a bed slope of 1 in 5000 and a Mannings, n, 0.025. When the flow is 50 cfs. Determine the normal depth of the channel.            (b) Determine the optimum dimensions (B, L, y, b) for the trapezoidal channel , if the flow rate in the channel is 0.55m3/s, the channel slope is 1:2500 and the Chezy coefficient is 85 m1/2 s-1.