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Pressure Force per unit area Units: Pa (N/m 2 ), lb/in 2, atm, torr, mmHg P = pressure, N (psi) F=force, N (lb) A= area, m 2 (in 2 )

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Presentation on theme: "Pressure Force per unit area Units: Pa (N/m 2 ), lb/in 2, atm, torr, mmHg P = pressure, N (psi) F=force, N (lb) A= area, m 2 (in 2 )"— Presentation transcript:

1 Pressure Force per unit area Units: Pa (N/m 2 ), lb/in 2, atm, torr, mmHg P = pressure, N (psi) F=force, N (lb) A= area, m 2 (in 2 )

2 Pascal’s Principle Pressure applied to a fluid is transmitted throughout that fluid unchanged in all directions. Pressure increases in a fluid with depth  P =  g  h, where  = density of fluid, g= acc. due to gravity, and  h = height of the fluid column The shape of the container has no effect on pressure. Only Depth! The pressure at the bottom of each is the same.

3 Hydraulics Machines using hydraulics use fluids to multiply forces. These machines have a small piston and a large piston connected by a chamber filled with hydraulic fluid. P 1 =P 2 so… F 1 /A 1 = F 2 /A 2 Pressure is constant MA = F 2 / F 1 = A 2 / A 1

4 Archimede’s Principle An object immersed in a fluid has an upward (buoyant) force equal to the weight of the fluid it displaces. F B =  gV F B = buoyant force, N  = mass density of the fluid, kg/m 3 g = acc. due to gravity, m/s 2 V = volume of the fluid displaced, m 3

5 Floating Since apparent weight = 0, the weight of the object = weight of the fluid displaced (or buoyant force). F net = F app = 0 so F g = F B = F fd Volume of the fluid displaced = volume of the submerged part of the object. V fd = V submerged density of the object < density of the fluid

6 Sinking The object can’t displace enough fluid to equal its own weight. F g > F B The volume of the fluid displaced = the volume of the object. V fd = V obj F app = F air - F B F app = apparent weight or weight in fluid (=F net ), N F g = weight of object in air (= m o g =  o V o g), N F B = buoyant force (= F fd = m fd g =  f V fd g), N

7 Suspended in a Fluid F g = F B F net = 0 V fd = V object density of the object = density of the fluid A submarine of a fish can float, sink, or suspend by changing its density.

8 Bernouilli’s Principle As the velocity of a fluid increases, the pressure exerted by that fluid decreases. (not valid for turbulent flow)

9 Applications of Bernouilli’s Principle Lift on an airplane wing - air has to travel farther over the top of the wing, so velocity is greater and pressure is less on top of the wing than underneath. Spoilers on a race car - opposite of the airplane wing; pressure is greater above, pushing the car down for more traction.

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