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- Energy–depth_relationship_in_a_rectangular_channel abstract "In open channel flow, specific energy (E) is the energy length, or head, relative to the channel bottom. Specific energy is expressed in terms of kinetic energy, and potential energy, and internal energy. The Bernoulli equation, which originates from a control volume analysis, is used to describe specific energy relationships in fluid dynamics. The form of Bernoulli’s equation discussed here assumes the flow is incompressible and steady. The three energy components in Bernoulli's equation are elevation, pressure and velocity. However, since with open channel flow, the water surface is open to the atmosphere, the pressure term between two points has the same value and is therefore ignored. Thus, if the specific energy and the velocity of the flow in the channel are known, the depth of flow can be determined. This relationship can be used to calculate changes in depth upstream or downstream of changes in the channel such as steps, constrictions, or control structures. It is also the fundamental relationship used in the Standard Step Method to calculate how the depth of a flow changes over a reach from the energy gained or lost due to the slope of the channel.".
- Energy–depth_relationship_in_a_rectangular_channel wikiPageExternalLink index.html.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageExternalLink summarytable.pdf.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageID "29563387".
- Energy–depth_relationship_in_a_rectangular_channel wikiPageLength "21992".
- Energy–depth_relationship_in_a_rectangular_channel wikiPageOutDegree "39".
- Energy–depth_relationship_in_a_rectangular_channel wikiPageRevisionID "680981103".
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Acceleration.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Asymptote.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Asymptotic.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Atmosphere.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Atmospheric_pressure.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Bernoullis_equation.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Bernoullis_principle.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Category:Fluid_mechanics.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Classic_energy_problem_in_open-channel_flow.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Critical_mass.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Derivative.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Dimensionless_momentum-depth_relationship_in_open-channel_flow.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Fluid_dynamics.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Froude_number.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Gravity.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Gravity_wave.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Hydraulic_Jumps_in_Rectangular_Channels.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Hydraulic_head.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Hydraulic_jumps_in_rectangular_channels.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Internal_energy.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Kinetic_energy.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Momentum-depth_relationship_in_a_rectangular_channel.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Open-channel_flow.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Open_channel_flow.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Potential_energy.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Pressure.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Sluice.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Specific_energy.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Specific_weight.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Standard_Step_Method.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Subcritical.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Supercritical_flow.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink The_Momentum-Depth_Relationship_in_a_Rectangular_Channel.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Unit_weight.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Velocity.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink Velocity_head.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink File:EYDiagram-AltDepths.png.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink File:EYDiagram-General.png.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink File:EYDiagram-IncrDischarges.png.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink File:EYDiagram-SSCritical.png.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink File:EYDiagram-SluiceGateEx.png.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLink File:SluiceGateDiagram.png.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLinkText "E-y".
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLinkText "Energy–depth relationship in a rectangular channel".
- Energy–depth_relationship_in_a_rectangular_channel wikiPageWikiLinkText "conservation of energy".
- Energy–depth_relationship_in_a_rectangular_channel hasPhotoCollection Energy–depth_relationship_in_a_rectangular_channel.
- Energy–depth_relationship_in_a_rectangular_channel wikiPageUsesTemplate Template:Use_mdy_dates.
- Energy–depth_relationship_in_a_rectangular_channel subject Category:Fluid_mechanics.
- Energy–depth_relationship_in_a_rectangular_channel comment "In open channel flow, specific energy (E) is the energy length, or head, relative to the channel bottom. Specific energy is expressed in terms of kinetic energy, and potential energy, and internal energy. The Bernoulli equation, which originates from a control volume analysis, is used to describe specific energy relationships in fluid dynamics. The form of Bernoulli’s equation discussed here assumes the flow is incompressible and steady.".
- Energy–depth_relationship_in_a_rectangular_channel label "Energy–depth relationship in a rectangular channel".
- Energy–depth_relationship_in_a_rectangular_channel sameAs m.0fq0qny.
- Energy–depth_relationship_in_a_rectangular_channel sameAs Q5377229.
- Energy–depth_relationship_in_a_rectangular_channel sameAs Q5377229.
- Energy–depth_relationship_in_a_rectangular_channel wasDerivedFrom Energy–depth_relationship_in_a_rectangular_channel?oldid=680981103.
- Energy–depth_relationship_in_a_rectangular_channel isPrimaryTopicOf Energy–depth_relationship_in_a_rectangular_channel.