Inspirational Message on Calculation of Discharge Rate in Fluid Mechanics

How can we calculate the discharge rate in fluid mechanics?

Given a sharp edged orifice with a 60 mm diameter opening in the vertical side of a large tank discharging under a head of 6 m, as well as coefficients of contraction and velocity, what is the formula to determine the discharge rate?

Calculation of Discharge Rate

The discharge rate in fluid mechanics can be calculated using the formula:

Q = Cv * Cc * A * √(2 * g * h)

To calculate the discharge rate, we need to consider various parameters such as the coefficients of contraction and velocity, the area of the orifice, the acceleration due to gravity, and the head under which the fluid is discharging.

First, calculate the radius (r) of the orifice by dividing the diameter (d) by 2, where r = d/2.

Next, determine the area (A) of the orifice using the formula A = πr^2.

Substitute the values of the coefficients of contraction (Cc) and velocity (Cv), as well as the area (A) and head (h) into the discharge rate formula.

By solving the equation using the given values, we can determine the discharge rate in cubic meters per second (m^3/s).

Understanding the calculation of discharge rate is essential in fluid mechanics as it helps in analyzing the flow of fluids in various systems and applications.