The_dimensions_of_a_rectangular_channel_is_3m‚Äö√†√∂‚àö‚â•2m_and_the_bed_slope_of_the_channel_is_1_in_1000,_calculate_the_rate_of_change_of_depth_if_the_rate_of_change_of_specific_energy_is_2‚Äö√†√∂‚àö‚â•10-5m._Given:_n_=_0.010$#

4.43‚Äö√†√∂‚àö‚â•10-5m

1.43‚Äö√†√∂‚àö‚â•10-5m

2.43‚Äö√†√∂‚àö‚â•10-5m

3.43‚Äö√†√∂‚àö‚â•10-5m

4.43‚Äö√†√∂‚àö‚â•10-5m

Calculate the bed slope of the channel if the slope of the energy line 0.00024 and the length of the back water curve is 104166.67m. Given:E1-E2=3m.

2.28‚Äö√†√∂‚àö‚â•10-5

3.28‚Äö√†√∂‚àö‚â•10-5

4.28‚Äö√†√∂‚àö‚â•10-5

5.28‚Äö√†√∂‚àö‚â•10-5

If the difference between specific energies is 2m calculate the rate of change of specific energies if the length of the back water curve is 26314m.

8.6‚Äö√†√∂‚àö‚â•10-5m

6.6‚Äö√†√∂‚àö‚â•10-5m

7.6‚Äö√†√∂‚àö‚â•10-5m

8.6‚Äö√†√∂‚àö‚â•10-5m

9.6‚Äö√†√∂‚àö‚â•10-5m

Estimate the slope of energy line in a GVF having length of the back water curve 30000m and head loss of 1m.

4.33‚Äö√†√∂‚àö‚â•10-5

1.33‚Äö√†√∂‚àö‚â•10-5

2.33‚Äö√†√∂‚àö‚â•10-5

3.33‚Äö√†√∂‚àö‚â•10-5

4.33‚Äö√†√∂‚àö‚â•10-5

What is the expression for head loss in case of a GVF?

hf = L‚Äö√Ñ√∂‚àö√ñ‚àö√´2 Sf

9 + Mcqs in Gradually Varied Flow Gvf in Fluid Mechanics Page 1 McqOptions

1.	CALCULATE_THE_SLOPE_OF_THE_ENERGY_LINE_IF_THE_BED_SLOPE_OF_THE_CHANNEL_IS_4.81‚ÄÖ√†√∂‚ÀÖ‚Â•10^-5_IF_THE_DEPTHS_OF_THE_CHANNEL_ARE_2.7M_AND_4.7M_AND_VELOCITIES_ARE_1_M/S_AND_0.5M/S_RESPECTIVELY.?$#
A.	0.00002
B.	0.00003
C.	0.00004
D.	0.00005
Answer» E.

Discussion

2.	The_dimensions_of_a_rectangular_channel_is_3m‚Äö√†√∂‚àö‚â•2m_and_the_bed_slope_of_the_channel_is_1_in_1000,_calculate_the_rate_of_change_of_depth_if_the_rate_of_change_of_specific_energy_is_2‚Äö√†√∂‚àö‚â•10^-5m._Given:_n_=_0.010$#
A.	1.43‚Äö√†√∂‚àö‚â•10<sup>-5</sup>m
B.	2.43‚Äö√†√∂‚àö‚â•10<sup>-5</sup>m
C.	3.43‚Äö√†√∂‚àö‚â•10<sup>-5</sup>m
D.	4.43‚Äö√†√∂‚àö‚â•10<sup>-5</sup>m
Answer» D. 4.43‚Äö√†√∂‚àö‚â•10<sup>-5</sup>m

Discussion

3.	If the depths in a channel are 2m and 4m and the velocities are 0.5 m/s and 0.3m/s, calculate the difference between specific energies?
A.	2m
B.	3m
C.	4m
D.	5m
Answer» B. 3m

Discussion

4.	Calculate the bed slope of the channel if the slope of the energy line 0.00024 and the length of the back water curve is 104166.67m. Given:E₁-E₂=3m.
A.	2.28‚Äö√†√∂‚àö‚â•10<sup>-5</sup>
B.	3.28‚Äö√†√∂‚àö‚â•10<sup>-5</sup>
C.	4.28‚Äö√†√∂‚àö‚â•10<sup>-5</sup>
D.	5.28‚Äö√†√∂‚àö‚â•10<sup>-5</sup>
Answer» E.

Discussion

5.	If the difference between specific energies is 2m calculate the rate of change of specific energies if the length of the back water curve is 26314m.
A.	6.6‚Äö√†√∂‚àö‚â•10<sup>-5</sup>m
B.	7.6‚Äö√†√∂‚àö‚â•10<sup>-5</sup>m
C.	8.6‚Äö√†√∂‚àö‚â•10<sup>-5</sup>m
D.	9.6‚Äö√†√∂‚àö‚â•10<sup>-5</sup>m
Answer» C. 8.6‚Äö√†√∂‚àö‚â•10<sup>-5</sup>m

Discussion

6.	Determine the length of the back water curve if E₁=2.8m and E₂=5.6m. Given:S₀=0.00009 S_f= 0.00004.
A.	26000m
B.	36000m
C.	46000m
D.	56000m
Answer» E.

Discussion

7.	Estimate the slope of energy line in a GVF having length of the back water curve 30000m and head loss of 1m.
A.	1.33‚Äö√†√∂‚àö‚â•10<sup>-5</sup>
B.	2.33‚Äö√†√∂‚àö‚â•10<sup>-5</sup>
C.	3.33‚Äö√†√∂‚àö‚â•10<sup>-5</sup>
D.	4.33‚Äö√†√∂‚àö‚â•10<sup>-5</sup>
Answer» D. 4.33‚Äö√†√∂‚àö‚â•10<sup>-5</sup>

Discussion

8.	Calculate the head loss if the length of the back water curve is 25000m and S_f=0.00006.
A.	1m
B.	1.5m
C.	2.0m
D.	2.5m
Answer» C. 2.0m

Discussion

9.	What is the expression for head loss in case of a GVF?
A.	h<sub>f</sub> = <sup>L</sup>‚Äö√Ñ√∂‚àö√ñ‚àö√´<sub>2</sub> S<sub>f</sub>
B.	h<sub>f</sub> = LS<sub>f</sub>
C.	h<sub>f</sub> = 2LS<sub>f</sub>
D.	h<sub>f</sub> = 3LS<sub>f</sub>
Answer» C. h<sub>f</sub> = 2LS<sub>f</sub>

Discussion

Explore topic-wise MCQs in Fluid Mechanics.

CALCULATE_THE_SLOPE_OF_THE_ENERGY_LINE_IF_THE_BED_SLOPE_OF_THE_CHANNEL_IS_4.81‚ÄÖ√†√∂‚ÀÖ‚Â•10-5_IF_THE_DEPTHS_OF_THE_CHANNEL_ARE_2.7M_AND_4.7M_AND_VELOCITIES_ARE_1_M/S_AND_0.5M/S_RESPECTIVELY.?$#

The_dimensions_of_a_rectangular_channel_is_3m‚Äö√†√∂‚àö‚â•2m_and_the_bed_slope_of_the_channel_is_1_in_1000,_calculate_the_rate_of_change_of_depth_if_the_rate_of_change_of_specific_energy_is_2‚Äö√†√∂‚àö‚â•10-5m._Given:_n_=_0.010$#

If the depths in a channel are 2m and 4m and the velocities are 0.5 m/s and 0.3m/s, calculate the difference between specific energies?

Calculate the bed slope of the channel if the slope of the energy line 0.00024 and the length of the back water curve is 104166.67m. Given:E1-E2=3m.

If the difference between specific energies is 2m calculate the rate of change of specific energies if the length of the back water curve is 26314m.

Determine the length of the back water curve if E1=2.8m and E2=5.6m. Given:S0=0.00009 Sf= 0.00004.

Estimate the slope of energy line in a GVF having length of the back water curve 30000m and head loss of 1m.

Calculate the head loss if the length of the back water curve is 25000m and Sf=0.00006.

What is the expression for head loss in case of a GVF?

CALCULATE_THE_SLOPE_OF_THE_ENERGY_LINE_IF_THE_BED_SLOPE_OF_THE_CHANNEL_IS_4.81‚ÄÖ√†√∂‚ÀÖ‚Â•10^-5_IF_THE_DEPTHS_OF_THE_CHANNEL_ARE_2.7M_AND_4.7M_AND_VELOCITIES_ARE_1_M/S_AND_0.5M/S_RESPECTIVELY.?$#

The_dimensions_of_a_rectangular_channel_is_3m‚Äö√†√∂‚àö‚â•2m_and_the_bed_slope_of_the_channel_is_1_in_1000,_calculate_the_rate_of_change_of_depth_if_the_rate_of_change_of_specific_energy_is_2‚Äö√†√∂‚àö‚â•10^-5m._Given:_n_=_0.010$#

Calculate the bed slope of the channel if the slope of the energy line 0.00024 and the length of the back water curve is 104166.67m. Given:E₁-E₂=3m.

Determine the length of the back water curve if E₁=2.8m and E₂=5.6m. Given:S₀=0.00009 S_f= 0.00004.

Calculate the head loss if the length of the back water curve is 25000m and S_f=0.00006.