Calculating Flow Speed in a Constriction

What is the flow speed in the constriction when a pipe narrows to 2.0-cm diameter?

How can we use the principle of continuity to determine the flow speed in the constriction?

Flow Speed Calculation:

When the pipe narrows to a 2.0-cm diameter, the flow speed in the constriction is approximately 5.28 cm/s.

To calculate the flow speed in the constriction, we can apply the principle of continuity, which states that the mass flow rate of an incompressible fluid remains constant in a closed system. This principle allows us to analyze how the flow speed changes as the pipe diameter varies.

Initially, when the water flows through a pipe with a diameter of 2.5cm, we can calculate the initial cross-sectional area using the formula: A = πr^2, where r is the radius (half the diameter). The initial cross-sectional area is found to be 4.91 cm2.

Given the initial flow speed of 1.9 m/s, we can determine the initial volume flow rate using the formula Q = A * v. Plugging in the values, we obtain an initial volume flow rate of 9.34 cm3/s.

When the water enters the constriction with a diameter of 1.5cm, we can calculate the cross-sectional area of the constriction to be 1.77 cm2. By rearranging the formula, v = Q / A, we find the flow speed in the constriction to be 5.28 cm/s.

Therefore, by applying the principle of continuity and using the formula for volume flow rate, we can determine the flow speed in a constriction when the pipe diameter changes.

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