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14 gases, pressure, Boyle’s Law & Bernoulli’s Principle

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Presentation on theme: "14 gases, pressure, Boyle’s Law & Bernoulli’s Principle"— Presentation transcript:

1 14 gases, pressure, Boyle’s Law & Bernoulli’s Principle
RQ: 4, 13, 15, 17, 20. Exercises: 7, 56. Problems: 1, 2.

2 Gases independent molecular motion expand “fluid”
exert “isotropic” pressure

3 Archimedes’ Principle for Air
Air provides a small buoyancy, noticeable when object has very low density Examples: helium or hot-air balloon. Temperature Density (kg/m3) 0°C (32°F) 10°C (50°F) 20°C (68°F) 30°C (86°F)

4 Boyle’s Law for a confined gas, (pressure)x(volume) = constant, i.e., PV = constant. Ex. A balloon squeezed to half its original size has ... Reasoning: in a smaller container, the molecules will hit the walls _____________ exerting ____________ on them.

5 Bernoulli’s Principle
When the speed of a fluid* _______ internal pressure in the fluid* ________ *or gas

6 Why does speed decrease pressure?
before the air blows, air molecules exert isotropic pressure, moving in all directions. air-flow _________________________ giving a preferred direction for air molecules at top of tube. The air molecules below are able to move up….

7 Examples: Roof, Ball

8 Bernoulli’s Principle: Curve Ball

9 Bernoulli’s Principle: Currents

10 summary gases exert isotropic pressure, but loose this effect when flowing (Bernoulli). gases exert a small buoyant force on all objects confined gases have constant product of pressure and volume

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