Question:

Critical depth in a channel is expressed by: (where $Q =$ discharge, $A =$ Area of flow, $T =$ top width of flow and $g =$ acceleration due to gravity)

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At critical depth in open channel flow, $Fr = 1$; use $D = A/T$ to derive expressions involving discharge.

Updated On: Feb 18, 2026

$\left(\dfrac{Q A^2}{g T^3}\right) = 1$
$\left(\dfrac{Q T^2}{g A^3}\right) = 1$
$\left(\dfrac{Q^2 T}{g A^3}\right) = 1$
$\left(\dfrac{Q^2 A^2}{g T^3}\right) = 1$

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The Correct Option is C

Solution and Explanation

Step 1: Recall condition for critical flow.
Critical flow occurs when the Froude number $Fr = 1$: \[ Fr = \frac{V}{\sqrt{g D}} = 1, \] where $V =$ velocity, $D =$ hydraulic depth $= \dfrac{A}{T}$.

Step 2: Express velocity.
\[ V = \frac{Q}{A}. \]

Step 3: Substitute in Froude number.
\[ \frac{Q}{A} = \sqrt{g \cdot \frac{A}{T}}. \] \[ \frac{Q^2}{A^2} = \frac{g A}{T}. \] \[ \frac{Q^2 T}{g A^3} = 1. \]

Step 4: Conclusion.
Thus, the correct expression is $\left(\dfrac{Q^2 T}{g A^3}\right) = 1$.

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Top CUET PG Open Channel Flow Questions

Match LIST-I with LIST-II:\[\begin{array}{|c|l|l|} \hline \textbf{LIST-I (Flow parameter of a channel flow)} & & \textbf{LIST-II (Proportional to)} \\ \hline \text{A. Mean velocity in a Lacey regime channel} & & \text{IV. $Q^{2/3}$} \\ \hline \text{B. Mean velocity in a lined channel} & & \text{II. $S^{1/3}$} \\ \hline \text{C. Normal scour depth in an alluvial channel} & & \text{III. $Q^{1/2}$} \\ \hline \text{D. Wetted perimeter of a Lacey regime channel} & & \text{I. $S^{1/2}$} \\ \hline \end{array}\] where $S$ is slope of channel and $Q$ is discharge. Choose the most appropriate match from the options given below:
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