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A channel of width 450 mm branches into two sub-channels having width 300 mm and 200 mm as shown in figure. If the volumetric flow rate (taking unit depth) of an incompressible flow through the main channel is 0.9 m³/s and the velocity in the sub-channel of width 200 mm is 3 m/s, the velocity in the sub-channel of width 300 mm is _m/s Assume both inlet and otlet to be at the same elevation. Width = 300 mm Width = 450 mm Flow rate= 0.9m³/s Width = 200 mm Velocity = 3m/s

A channel of width 450 mm branches into two sub-channels having width 300 mm and 200 mm as shown in figure. If the volumetric flow rate (taking unit depth) of an incompressible flow through the main channel is 0.9 m³/s and the velocity in the sub-channel of width 200 mm is 3 m/s, the velocity in the sub-channel of width 300 mm is _m/s Assume both inlet and otlet to be at the same elevation. Width = 300 mm Width = 450 mm Flow rate= 0.9m³/s Width = 200 mm Velocity = 3m/s

Structural Analysis
Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
Section: Chapter Questions
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Continuity eqn fluids..

A channel of width 450 mm branches into two sub-channels having width 300 mm and 200 mm as shown in figure. If the volumetric flow rate (taking unit depth) of an incompressible flow through the main channel is 0.9 m³/s and the velocity in the sub-channel of width 200 mm is 3 m/s, the velocity in the sub-channel of width 300 mm is _m/s Assume both inlet and otlet to be at the same elevation. Width = 300 mm Width = 450 mm Flow rate=0.9m³/s Width = 200 mm Velocity = 3m/s
Transcribed Image Text:A channel of width 450 mm branches into two sub-channels having width 300 mm and 200 mm as shown in figure. If the volumetric flow rate (taking unit depth) of an incompressible flow through the main channel is 0.9 m³/s and the velocity in the sub-channel of width 200 mm is 3 m/s, the velocity in the sub-channel of width 300 mm is _m/s Assume both inlet and otlet to be at the same elevation. Width = 300 mm Width = 450 mm Flow rate=0.9m³/s Width = 200 mm Velocity = 3m/s
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