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Chapter-11 Continued…

Chapter-11 Continued…. 11.4  Pressure Gauges. Pressure gauges are used to measure pressures. Tire pressure gauge. Atmospheric pressure is measured with a mercury barometer. Blood pressure is measured with a sphygmomanometer. Gauge Pressure.

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Chapter-11 Continued…

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  1. Chapter-11 Continued…

  2. 11.4 Pressure Gauges Pressure gauges are used to measure pressures.

  3. Tire pressure gauge

  4. Atmospheric pressure is measured with a mercury barometer.

  5. Blood pressure is measured with a sphygmomanometer.

  6. Gauge Pressure • Gauge pressure is the pressure measured by a pressure gauge. • It is the difference between the absolute pressure and atmospheric pressure. Gauge pressure = Absolute pressure - atmospheric pressure

  7. Atmospheric Pressure Atmospheric pressure at sea level is 1.013 × 105 Pa, which is sufficient to crumple a can if the inside air is pumped out.

  8. Mercury Barometer

  9. Mercury Barometer At sea level, Height of mercury = h = 76 cm. Atmospheric pressure = 76 cm of Hg. (76 cm = 760 mm = 29.9 inch)

  10. Blood pressure is measured with a sphygmomanometer. Pressure at the peak of the beating cycle- Systolic. Pressure at the low point of the beating cycle- Diastolic. For a young, healthy heart: Systolic pressure = 120 mm of Hg Diastolic pressure = 80 mm of Hg

  11. 11.5 Pascal's Principle Any change in the pressure applied to a completely enclosed fluid is transmitted undiminished to all parts of the fluid and the enclosing walls.

  12. Car Brakes

  13. Hydraulic Car Lift

  14. Archimedes of Syracuse (287BC-212BC) Much of Archimedes fame comes from his relationship with Hiero, the king of Syracuse, and Gelon, Hiero's son. At one time, the king ordered a gold crown and gave the goldsmith the exact amount of gold to make it. When Hiero received it, the crown had the correct weight but the monarch suspected that some silver had been used instead of the gold. Since he could not prove it, he brought the problem to Archimedes.

  15. Eureka One day while considering the question, "the wise one" entered his bathtub and recognized that the amount of water that overflowed the tub was proportional the amount of his body that was submerged. This observation is now known as Archimedes' Principle and gave him the means to solve the problem. He was so excited that he ran naked through the streets of Syracuse shouting "Eureka! eureka!" (I have found it!). The fraudulent goldsmith was brought to justice.

  16. Buoyant Force

  17. 11.6 Archimedes' Principle Any fluid applies a buoyant force to an object that is partially or completely immersed in it; the magnitude of the buoyant force equals the weight of the fluid that the object displaces:

  18. Derivation Consider a cylinder of height h is being held under the surface of a liquid.

  19. Derivation Consider a cylinder of height h is being held under the surface of a liquid. The fluid applies a downward forceP1A to the top face of the submerged cylinder and an upward force P2A to the bottom face.

  20. Derivation Consider a cylinder of height h is being held under the surface of a liquid. The fluid applies a downward forceP1A to the top face of the submerged cylinder and an upward force P2A to the bottom face.

  21. Derivation Consider a cylinder of height h is being held under the surface of a liquid. The fluid applies a downward forceP1A to the top face of the submerged cylinder and an upward force P2A to the bottom face.

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