solve very fast in 15 min and I need a clear answer | dybala Q.3. Assuming the criterion for suspended load transport is u-/v,,> 0.40 and for bed loadtransport is u-/v> 0.10, a rectangular channel (B=7 m, S,= 0.0005, n = 0.015, v 1.186 x10 m²/s). Assume uniform, steady flow and assume a spherical particle with dso = 2.0 mmand neglect bed form roughness. Find the following by choosing the correct answer of thefollowing:4- The gsb' (in #/ft.s) based onMeyer-Peter-Muller (MPM) bed-load transport model is equal to:0.0300.0350.040Non of them5- The qsb (in ft^2/s) based onMeyer-Peter-Muller (MPM) bed-load transport model is equal to:1.0*10^(-4)1.4*10^(-4)2.9 * 10^(-4)Non of them

Answered: Image /qna-images/answer/675727d9-7570-4c1e-bcf2-53a47c9309ff.jpg

4- The gsb' (in #/ft.s) based on Meyer-Peter-Muller (MPM) bed- load transport model is equal to: 0.030 O 0.035 O 0.040 O Non of them 5- The qsb (in ft^2/s) based on Meyer-Peter-Muller (MPM) bed- load transport model is equal to: O 1.0*10^(-4) O 1.4*10^(-4) O2.9*10^(-4)

4- The gsb' (in #/ft.s) based on Meyer-Peter-Muller (MPM) bed- load transport model is equal to: 0.030 O 0.035 O 0.040 O Non of them 5- The qsb (in ft^2/s) based on Meyer-Peter-Muller (MPM) bed- load transport model is equal to: O 1.010^(-4) O 1.410^(-4) O2.9*10^(-4)

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Question

solve very fast in 15 min and I need a clear answer | dybala

Q.3. Assuming the criterion for suspended load transport is u-/v,,> 0.40 and for bed load
transport is u-/v> 0.10, a rectangular channel (B=7 m, S,= 0.0005, n = 0.015, v 1.186 x
10 m²/s). Assume uniform, steady flow and assume a spherical particle with dso = 2.0 mm
and neglect bed form roughness. Find the following by choosing the correct answer of the
following:
4- The gsb' (in #/ft.s) based on
Meyer-Peter-Muller (MPM) bed-
load transport model is equal to:
0.030
0.035
0.040
Non of them
5- The qsb (in ft^2/s) based on
Meyer-Peter-Muller (MPM) bed-
load transport model is equal to:
1.0*10^(-4)
1.4*10^(-4)
2.9 * 10^(-4)
Non of them

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