A wide rectangular channel of width 20 m and has n = 0.035, determine the critical...

A rectangular channel with a width of 6.5m and water depth of 1.35m has a channel...

A rectangular channel with a width of 6.5m and water depth of 1.35m has a channel bed slope of 1 in 900. Determine the discharge when Manning’s roughness coefficient n=0.015. By changing the size of the channel but keeping the same quantity of lining, determine the new dimensions (water depth and width) if it is desired to increase the discharge to a maximum and also calculate percentage increase in discharge

A 5-m wide rectangular channel with two reaches, each with a different slope, conveys 40m3/s of...

A 5-m wide rectangular channel with two reaches, each with a different slope, conveys 40m3/s of water. The channel slope for the first reach is 0.0005 and then a sudden change to a slope of 0.015 so that critical flow occurs at the transition. Determine the depths of flow at locations 10 m, 20 m and 30 m upstream of the critical depth. The Manning’s n for the channel is 0.015.

Water flows in a rectangular concrete channel that is 10 m wide and has a slope...

Water flows in a rectangular concrete channel that is 10 m wide and has a slope of 0.005. The depth of the uniform flow in the channel (y1) is 450 mm and the discharge per width of the water is 2.2 m2/s. The downstream channel is smooth, and a hydraulic jump is forced to form in the channel by installing a sill. Calculate: (i) the depth and velocity of the water downstream of the hydraulic jump; (ii) the difference in...

A rectangular channel 4m wide has a venture flume of width 1.5m and a flow rate...

A rectangular channel 4m wide has a venture flume of width 1.5m and a flow rate of 8m³/s. A subcritical flow approaches this structure, Investigate the energy and flow surface profiles along this channel up to where flow is subcrtical again, Taken n= 0.023 and bed slope 1/700

A rectangular channel has a width of 9.8 m and a flow discharge of 48 m3/dt....

A rectangular channel has a width of 9.8 m and a flow discharge of 48 m3/dt. Slope of the channel bottom is 0.0018 and manning coefficient is 0.037. Calculate normal water depth and critical water depth

A trapezoidal channel is 6 m wide and has a side slope of 0.5 horizontal: 1...

A trapezoidal channel is 6 m wide and has a side slope of 0.5 horizontal: 1 vertical. If the bed slope of the channel is 0.0004 and Manning’s n = 0.02, find the discharge which can make the channel a hydraulically efficient channel section.

The discharge through a rectangular channel 4.4 m wide is 16 m3/s. The Manning’s coefficient n...

The discharge through a rectangular channel 4.4 m wide is 16 m3/s. The Manning’s coefficient n is 0.003. Determine the normal depth when the slope is 0.008. Check whether the flow is sub or supercritical. If the normal depth is to be kept at 2 m, determine the slope.

Determine the depth (y), and the pressure (p) for a rectangular channel that has a discharge,...

Determine the depth (y), and the pressure (p) for a rectangular channel that has a discharge, Q=300 m3/s, (uniform flow) (n= 0.014 Manning) Slope=0.65 b(wide)=2.00 m

A rectangular channel 6.20 m wide and 1.20 m deep is laid on a uniform slope...

A rectangular channel 6.20 m wide and 1.20 m deep is laid on a uniform slope of 0.003. The roughness coefficient of the channel is 0.013 m. a. Determine the discharge in the channel in m3/sec. b. Determine the savings in the lining per meter length of channel if the most efficient rectangular section is to be used for the same flow and properties. c. Determine the savings in earth excavation per meter length of channel if the most efficient...

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.