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Presentation transcript:

Fluids 1

States of Matter Solid Liquid Gas Hold Volume Hold Shape Adapt Shape Adapt Volume Fluids 15

Atmospheric Pressure Basically weight of atmosphere! Air molecules are colliding with you right now! Pressure = 1x105 N/m2 = 14.7 lbs/in2! Example: Disk w/ r = 0.06 m Demo A = p r2 = .125 m2 F = 1,130 Newtons (over 254 lbs)! 23

Pascal’s Principle A change in pressure at any point in a confined fluid is transmitted everywhere in the fluid. Hydraulic Lift Compare the work done by F1 with the work done by F2 A) W1 > W2 B) W1 = W2 C) W1 < W2 Act on the amount of work done. 27

Gravity and Pressure A) P1 > P2 B) P1 = P2 C) P1 < P2 Two identical “light” containers are filled with water. The first is completely full of water, the second container is filled only ½ way. Compare the pressure each container exerts on the table. A) P1 > P2 B) P1 = P2 C) P1 < P2 Under water P = Patmosphere + r g h 1 2 Example w/ container of water? Double water double weight, calculate using density, see how A disappears. 31

Dam Question A B Two dams of equal height prevent water from entering the basin. Compare the net force due to the water on the two dams. A) FA > FB B) FA=FB C) FA< FB F = P A, and pressure is rgh. Same pressure, same Area same force even though more water in B! 35

Example: Barometer: a way to measure atmospheric pressure p2=patm p1=0 Start from beginning. 37

Example:Water Barometer: h p2=patm p1=0 Start from beginning. 37

Question Is it possible to stand on the roof of a five story (50 foot) tall house and drink, using a straw, from a glass on the ground? 1. No 2. Yes 40

Archimedes’ Principle Determine force of fluid on immersed cube Draw FBD Buoyant force is weight of displaced fluid! 43

Archimedes Example A cube of plastic 4.0 cm on a side with density = 0.8 g/cm3 is floating in the water. When a 9 gram coin is placed on the block, how much sinks below water surface? mg Fb Mg h Transparency 48

Summary Pressure is force exerted by molecules “bouncing” off container P = F/A Gravity/weight effects pressure P = P0 + rgd Buoyant force is “weight” of displaced fluid. F = r g V