Fluids

Fluids Outcomes Read Ch. 10-1 to 10-10 Jason Yang 1. Determine which direction a smooth exerts line per unit area on an object. A:Numerous molecules of the fluid continuously elastic all toldy collide with the surfaces of the object immersed in the fluid, due to their random thermal motion. As a result, a pressure is continuously exerted on all surfaces of the object. 2.State the relation gouge in the midst of pressure and depth in a liquid. Use the formula to solve problems. A: naiant extort = Density x Gravity x Depth The corking the depth in a given body of peeing, the greater the pressure. Water pressure is measured in atmospheres for the purposes of depth. At ocean level, piss is at one ATM. At 33 feet, 2atm. At 66 feet, 3 ATM and so on all 33 feet accounting for 1 ATM. Describe the buoyant strong suit on an object immersed in a liquid. A:Archimedes practice states that the buoyant force that an object experiences when immersed in pee system bring out is mate to the tip of the water displaced by the object. 4.State Archimedes Principle and foreland in problem solving. A:A channelize floats on the surface of the sea because the volume of water displaced by the direct is e nogh to have a pack equal to the weight of the ship.

A ship is constructed in a way so that the shape is hollow, to make the overall minginess of the ship lesser than the sea water. Therefore, the buoyant force acting on the ship is large enough to support its weight.The density of sea water varies with location.A ship submerge lower in fresh water as fresh water density is lesser than sea water. Ships wil! l float higher(prenominal) in cold water as cold water has a relatively higher density than warm water. This is the example of Archimedes principle. 5.State the difference between laminar tend and turbulent flow. State their characteristics. A:In case of airman pipe if Reynolds number 4000 ,the flow is express to be turbulent.if Reynolds no. lies between 2000 to 4000 ,the flow changes from laminar to turbulent...If you destiny to get a full essay, order it on our website: BestEssayCheap.com

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