A hydraulic jump occurs in a triangular flume having a side slope of 1:1. The flow...

Hydraulic jump occurs in a rectangular canal. The water depth just before and just after the...

Hydraulic jump occurs in a rectangular canal. The water depth just before and just after the jump are 0.6 m and 1.5m respectively. Calculate the critical depth and the flow rate per unit width

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.

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.

The 1.5 cm wide rectangular channel in the laboratory was used to create a hydraulic jump;...

The 1.5 cm wide rectangular channel in the laboratory was used to create a hydraulic jump; the following data were collected: y1 = 1.25 ± 0.05 cm; y2 = 5.6 ± 0.1 cm; Q = 8 liters/30 sec Assume the water temperature was 20°C. (Note the mixed units above – please present your solutions in si units) (a) Use the theoretical equation to predict the conjugate depth ratio, y2/y1, based on the initial depth, y1. Compare the value to 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...

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.

In a trapezoidal channel with a constant width of b=3 m. and side slopes of 1:3...

In a trapezoidal channel with a constant width of b=3 m. and side slopes of 1:3 (1 vertical, 3 horizontal) and discharge rate of 6 m3 /sec, if the maximum step upward height is z=0.5 m. not to cause any choking, what is the water depth before and after this maximum step upward. Draw the water surface profile and specific energy curve (E vs y) for this flow.

Assuming that water has a density of exactly 1 g/cm3, find the mass of one cubic...

Assuming that water has a density of exactly 1 g/cm3, find the mass of one cubic meter of water in kilograms. (b) Suppose that it takes 10.0 h to drain a container of 5700 m3 of water. What is the "mass flow rate," in kilograms per second, of water from the container?

a recreational lake created by an artificial damn has the shape of a truncated cone. if...

a recreational lake created by an artificial damn has the shape of a truncated cone. if the depth of water in the lake (h) is 0 the radius of the lake would be r_1= 300meters. the radius of the lake at it's surface is given in terms of the lake's depth via the following relation r_2 = 300 + h. a) given that the volume of a truncated cone is given by the formula pi/3 × h(r(2/1)+ r(2/2) + r...

A researcher wishes to determine whether the rate of water flow (in liters per second) over...

A researcher wishes to determine whether the rate of water flow (in liters per second) over an experimental soil bed can be used to predict the amount of soil washed away (in kilograms). The researcher measures the amount of soil washed away for various flow rates, and from these data calculates the regression line to be amount of eroded soil = 0.4 + 1.3 (flow rate) What is the slope of the regression line? A. 0.4 B. 1.9 C. X...