Calculate the energy loss through the hydraulic jump. For this, provide the derivation of the equation...

Explain the mechanism of how hydraulic jump dissipates a large amount of energy. Can we determine...

Explain the mechanism of how hydraulic jump dissipates a large amount of energy. Can we determine the energy dissipation by hydraulic jump using Darcy-Weisbach equation or manning formula? Why?

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...

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.

6. An overflow spillway flows into a mild channel, producing a hydraulic jump. The channel is...

6. An overflow spillway flows into a mild channel, producing a hydraulic jump. The channel is rectangular, with Q = 100 ft3/s, bottom width b = 20 ft, and Manning's n = 0.015. The flow depth at the toe of the spillway is 0.4 ft and the approximate slope at the toe of the spillway is 0.1. The slope of the [mild] downstream channel, which functions as a stilling basin, is 0.0001. Calculate:  the critical depth,  the length...

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

Please provide the full derivation of this equation. It's based on Archimedes’ principle to find porosity...

Please provide the full derivation of this equation. It's based on Archimedes’ principle to find porosity in solid sample. Thank you very much! Va (apparent volume )= (Mair - MH20)/ (pH20- pair) Va= apparent volume Mair= mass of air MH20= mass of water pH20= density of water pair= density of air

Hydraulic jump. Apply conservation of mass and momentum. For forces, consider only the hydrostatic forces on...

Hydraulic jump. Apply conservation of mass and momentum. For forces, consider only the hydrostatic forces on the in and out flows; ignore friction and other external forces. You should be able to get a quadratic equation in h2/h1, with the square of the Froude number V12/gh1 as a parameter. Solve for the roots, and identify which roots are real and positive and under what conditions. Is h2/h1 = 1 a solution? Why or why not?

Please provide the full derivation of equation 2. It's based on Archimedes’ principle to find porosity...

Please provide the full derivation of equation 2. It's based on Archimedes’ principle to find porosity in solid sample. Thank you very much! Va (apparent volume )= (Mair - MH20)/ (pH20- pair) equation 1 Total Porosity [%] = {[(Msolvent- Mair) / (psolvent)] / Va } x 100 equation 2 Where: Va= apparent volume Mair= mass of air MH20= mass of water Msolvent= mass of solvent pH20= density of water pair= density of air psolvent= density of solvent

Show the derivation (all steps, explanations, and definitions used) that gives you the following equation for...

Show the derivation (all steps, explanations, and definitions used) that gives you the following equation for period of a spring: T = 2π √(m/K)

Please provide the full derivation of these equations. They are based on Archimedes’ principle to find...

Please provide the full derivation of these equations. They are based on Archimedes’ principle to find porosity in solid sample. Thanks Va (apparent volume )= (Mair - MH20)/ (pH20- pair) equation 1 Total Porosity [%] = {[(Msolvent- Mair) / (psolvent)] / Va } x 100 equation 2 Where: Va= apparent volume Mair= mass of air MH20= mass of water Msolvent= mass of solvent pH20= density of water pair= density of air psolvent= density of solvent