A trapezoidal wall 2.75m in height has a bottom width 5m and upper width 4.5m. Determine...

EXAMPLE 6.1 A trapezoidal irrigation canal has a bottom width of b¼1.2m, side slopes of m¼2...

EXAMPLE 6.1 A trapezoidal irrigation canal has a bottom width of b¼1.2m, side slopes of m¼2 (2H:1V), and a longitudinal bottom slope of S0¼0.0005. A rectangular sharp-crested weir placed in this channel has a crest height of p¼0.70m, and a crest length of Lw¼0.80m. The water surface elevation at the approach section is h0¼0.77m above the weir crest. Determine the discharge in the canal.

A trapezoidal channel has a bottom width of 5 m and side slopes m = 2....

A trapezoidal channel has a bottom width of 5 m and side slopes m = 2. If the flow rate is 20 m3/s, what is critical depth?

Calculate the depth of flow in a trapezoidal channel with a bottom width of 3m and...

Calculate the depth of flow in a trapezoidal channel with a bottom width of 3m and whose walls slope 40 degrees with the horizontal. The channel is made of unfinished concrete and is laid on a 0.1% slope. The discharge is 15m^3/s.

A glass window has the shape of a trapezoid with height 4m, width at the top...

A glass window has the shape of a trapezoid with height 4m, width at the top of 5m, and width at the bottom of 10m. The window is part of tank of water, with the top of the window at a depth of 2m. Find the hydrostatic force on the window. detailed steps and answer in Newtons.

A trapezoidal concrete channel (n = 0.015) has side slopes of 2H:1V, a bottom width of...

A trapezoidal concrete channel (n = 0.015) has side slopes of 2H:1V, a bottom width of 10.0 ft, and a longitudinal slope of 0.005. (a) Compute the discharge rate (in cfs) and velocity (ft/s) when the water depth is 3.0 ft. (b) Compute normal depth and critical depth (in feet) for a discharge rate of 300 cfs.

A trapezoidal plate, with 9m and 5m bases and 3m height, is submerged vertically in a...

A trapezoidal plate, with 9m and 5m bases and 3m height, is submerged vertically in a tank of water so that its top is 2m to the water surface (as figure below). Calculate the hydrostatic force against one side of the plate. (Water mass density ρ = 1000 kg/m3, and g = 9.8 m/s2). Please help me with this. My answer is 690900.

Using 4 equal-width intervals, show that the trapezoidal rule is the average of the upper and...

Using 4 equal-width intervals, show that the trapezoidal rule is the average of the upper and lower sum estimates for the integral from 0 to 8 of x squared, dx. typed solution only please

Consider the California aqueduct, which is a concrete trapezoidal channel with a bottom width of 40...

Consider the California aqueduct, which is a concrete trapezoidal channel with a bottom width of 40 ft, a longitudinal slope of 0.004% and 1.5H:1V sideslopes (z = 1.5). Assume n = 0.013. The design discharge is 6400 mgd. (use 9900 cfs) The depth of water is 29 ft at point A. The depth of water is 30 ft at point B. (a) What is the normal depth? b) Determine the critical depth. (c) What type of profile exists in the...

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 retaining wall has a stem height 8.5m and width is 0.5m from top and 1.4...

A retaining wall has a stem height 8.5m and width is 0.5m from top and 1.4 from below. The base is 7.0x1.5m. the toe is 1.8m and the heel is 3.8m. the backfill is inclined by 15o. Ɣ=18KN/m3 and Φ=25 Find if the given retaining wall is stable against sliding and overturning or not. Ɣ concrete = 24KN/m3. δ = 0.6 ɸ