1. The uniform velocity 'U' of water flowing in a pipe at 70 °F is 33ft/s. Figure out the following (a) the distance at which the transition occurs from a laminar to a turbulent boundary layer and (b) thickness at the point of transition the thickness of this initial laminar boundary layer is given by 4.91 (vx/U/^0.5] (v = 1.052 X 105 ft?/s)
1. The uniform velocity 'U' of water flowing in a pipe at 70 °F is 33ft/s. Figure out the following (a) the distance at which the transition occurs from a laminar to a turbulent boundary layer and (b) thickness at the point of transition the thickness of this initial laminar boundary layer is given by 4.91 (vx/U/^0.5] (v = 1.052 X 105 ft?/s)
Chapter2: Loads On Structures
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![1. The uniform velocity 'U' of water flowing in a pipe at 70 °F is 33ft/s. Figure out
the following
(a) the distance at which the transition occurs from a laminar to a turbulent
boundary layer and
(b) thickness at the point of transition [if the thickness of this initial laminar
boundary layer is given by 4.91 (vx/U)^0.5]
(v = 1.052 X 105 ft?/s)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F5d399338-bd52-4296-b635-54dca4b0f6df%2Fa8aca37b-613e-4780-ae48-ef91621ce038%2F1qwfsb8_processed.jpeg&w=3840&q=75)
Transcribed Image Text:1. The uniform velocity 'U' of water flowing in a pipe at 70 °F is 33ft/s. Figure out
the following
(a) the distance at which the transition occurs from a laminar to a turbulent
boundary layer and
(b) thickness at the point of transition [if the thickness of this initial laminar
boundary layer is given by 4.91 (vx/U)^0.5]
(v = 1.052 X 105 ft?/s)
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