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AF11 - Experiment

BERNOULLI'S EQUATION

Allows students to measure the pressure distribution in a convergent-divergent duct to confirm Bernoulli's equation.

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Description

BERNOULLI'S EQUATION

This experiment module illustrates Bernoulli’s equation as applied to a convergent-divergent duct. A Pitot static tube measures both the total pressure and the static pressure independently. The tube traverses along the axis of the duct and connects to the AF10a Manometer (ancillary) via flexible tubes fitted with quick-release couplings.

A clear scale printed on the duct helps to show the probe position. Students confirm the constant total pressure while observing the rise and fall of the static pressure. They compare the velocity-area ratio as calculated from Bernoulli’s equation to the experimental results.

View the ancillary flyer here.

Learning outcomes

  • Confirmation of Bernoulli’s equation.
  • The use of a Pitot static tube and water manometer.
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Essential Base Units
MODULAR AIR FLOW BENCH AF10 0124

MODULAR AIR FLOW BENCH

AF10 - Base Unit

This is a small-scale wind tunnel with an electric fan and adjustable air flow control, with eight different experiment modules that demonstrate key principles and phenomena of air flow.

Recommended Ancillaries
Multi Tube Manometer AF10a 1119

MULTI-TUBE MANOMETER

AF10A - Ancillary

A multi-tube inclinable manometer for use with the Modular Air Flow Bench AF10.

Alternatives
Bernoulli Theorem H5 1116

BERNOULLI'S THEOREM

H5 - Experiment

A bench top Venturi tube that allows students to study Bernoulli's theorem by measuring the complete static head distribution along the horizontal tube.

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