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

The discharge in a channel with bottom width 3 m is 12 m3 s–1. If Manning’s...

The discharge in a channel with bottom width 3 m is 12 m3 s–1. If Manning’s n is 0.013 m-1/3 s and the streamwise slope is 1 in 200, find the normal depth if: (a) the channel has vertical sides (i.e. rectangular channel); (b) the channel is trapezoidal with side slopes 2H:1V. (Answer with steps plz)

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.

The flow in a very wide rectangular channel tends to a freefall at which the depth...

The flow in a very wide rectangular channel tends to a freefall at which the depth is reduced to 0.67 times the normal depth. The channel conveys a specific discharge of 4 m3/s/m and has a bed slope of 10 cm/km. Estimate the distance upstream of the fall where the water depth is 0.9 times the normal depth. Take the Manning coefficient as 0.025 and use the step-by-step (direct step) method.

Water flows in a rectangular channel in which the bottom width is b = 0.9 (m)....

Water flows in a rectangular channel in which the bottom width is b = 0.9 (m). The channel lining has an estimated Manning’s of n = 0.017, and the longitudinal slope of the channel is S% = 0.50. If the flowrate is Q = 1696 (L/s) and the depth of flow at a gaging station is Y = 0.22 (m), Calculate the critical depth yc Calculate the normal depth yn Classify the water surface profile. State whether the depth increases...

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 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

Calculate the discharge (in m3/s) through an open channel where width of the channel is 3...

Calculate the discharge (in m3/s) through an open channel where width of the channel is 3 m and depth of flow is 7.8 m and average velocity of water flow is 1.46 m/s

A rectangular laboratory channel has a bottom width of 6.0 in, a Manning roughness coefficient of...

A rectangular laboratory channel has a bottom width of 6.0 in, a Manning roughness coefficient of n = 0.010, longitudinal slope of 2% (So = 0.02). The discharge is 180 gpm. Assume α = 1. The water depth is 2.5 inches at Point A, and 3.0 inches at Point B. (a) Determine normal depth (report your answer in inches) (b) Determine critical depth (report your answer in inches) (c) Determine category of channel slope (mild or steep). State the basis...

Q4. A hydraulic jump occurs fort the given flow conditions: discharge=20 m3/s, upstream channel geometry trapezoid...

Q4. A hydraulic jump occurs fort the given flow conditions: discharge=20 m3/s, upstream channel geometry trapezoid (upstream flow depth=100 cm, bottom width=100 cm, m=2), downstream channel geometry rectangular (width= 500 cm). Calculate downstream flow depth and power loss in the hydraulic jump.