Write the Rouse's equation for distribution of Suspended sediment in the vertical of a channel and label all the terms. In a wide alluvial channel having suspended sediment load, the depth of flow is 2.8 m. If a suspended load sampler indicated concentration of 700 ppm at a point 30 cm below water surface, estimate the concentration at a point 10 cm above the bed in the same Verfical. The exponent in Rouse's equation can be assumedsas 0.4. CS Scanned with

Write the Rouse's equation for distribution of Suspended sediment in the vertical of a channel and label all the terms. In a wide alluvial channel having suspended sediment load, the depth of flow is 2.8 m. If a suspended load sampler indicated concentration of 700 ppm at a point 30 cm below water surface, estimate the concentration at a point 10 cm above the bed in the same Verfical. The exponent in Rouse's equation can be assumedsas 0.4. CS Scanned with

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Concept explainers

Calculation of Settlement

The vertical displacement of the structural foundation due to the loading from the superstructure is known as settlement. It is due to the reduction of air voids present in the soil. The amount of vertical displacement depends on the bearing capacity of the soil on which the foundation is laid. The effect of the settlement depends on the magnitude of settlement, uniformity, and the structural design of the structure. The maximum allowable settlement for residential and office buildings should be less than 18 mm, for industrial buildings, it is 38 mm and for commercial buildings, it is 25 mm.

Question

Write the Rouse's equation for distribution of
Suspended sediment in the vertical of a channel
and label all the terms.
In a wide alluvial channel having suspended
sediment load, the depth of flow is 2.8 m.
If a suspended load sampler indicated
concentration of 700 ppm at a point 30 cm
below water surface, estimate the concentration
at a point 10 cm above the bed in the same
vertical. The exponent in Rouse's equation can
be assumedsas 0.4.
CS Scanned witA

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