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Boyle's Law — Squeeze a Syringe of Air
Charlie

Creado por

Charlie

2. julio 2026DE
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Boyle's Law — Squeeze a Syringe of Air

A hands-on school project: seal air in a syringe, squeeze it, and feel the pressure fight back harder the smaller the space gets. Measure the trade-off between pressure and volume, check that pressure times volume stays constant with a Python cell, and learn the gas law behind everything from scuba diving to your own lungs.
Principiante
30 minutes

Instrucciones

1

Air is a spring

In 1662 Robert Boyle trapped air and squeezed it, and found that halving its space doubles its pressure. He called air a 'spring' — the more you compress it, the harder it pushes back. You will feel and measure that spring for yourself.
2

Seal the syringe

Pull the plunger of a syringe back to draw in air, then seal the tip firmly (a blob of modelling putty or a finger held tight will do). Now the air is trapped. Note the starting volume marked on the barrel.

Materiales para este paso:

Syringe (Laboratory)Syringe (Laboratory)1 pieza
3

Squeeze and read

Push the plunger in to smaller and smaller volumes and feel how much harder you must push each time — that push is the pressure. To put numbers on it, stand the sealed syringe upright and pile known weights on the plunger, or press it against a force meter, and record the volume at each pressure. Notice you can never quite push it to zero: the air fights back ever harder.

Herramientas necesarias:

Force Meter (Spring Scale)Force Meter (Spring Scale)
4

Check that pressure times volume is constant

Loading Jupyter Notebook...

Herramientas necesarias:

Desktop ComputerDesktop Computer
CalculatorCalculator
5

Compendium: gases under pressure

What the constant product tells you. (1) Pressure and volume are INVERSELY proportional only while the temperature is held fixed — squeeze fast and the air also heats up, which is why a bicycle pump gets warm. (2) Plotting pressure against 1/volume gives a straight line, the tidy proof of the law. (3) Boyle's law is the first of the gas laws; joined with Charles's law it becomes the ideal gas law that runs engines, refrigerators and weather. (4) It explains why a scuba diver must never hold their breath while surfacing — the lung air expands as the pressure drops — why your ears pop on a plane, and how your own chest lowers its pressure to pull air in with every breath.

Materiales

1

Herramientas requeridas

3

You can swap these in

Can't get one of the materials? Swap it for an equivalent — these work just as well.

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