Young's modulusFAL=YAL.Density:M(kg /m³)p=.VFP =AP = P, + pghPressure:(Ра)Buoyancy Force, B = weight in air – weight in fluidArea of a circle = A = Tr²weight = mg,whereg= 9.80 m/s?Pressure:FP=(Ра)AIn liquid: P= P,+pghBuoyancy Force, B = weight in air – weight in fluidArea of a circle = A = Tr?Buoyancy force on a submerged object: BPfluid Vokiect gFluid flow:Flow rate Q(m³/s)VAVIA1 = V2A2Bernoulli's Principle: P1 + pghi + ½ pvi? = P2+ pgh2 + ½ p vz? A rectangular solid made of aluminum has a density p= 2.70 g/cm³. The dimensions ofthe solid are shown below. The solid is placed on top of a truncated cone whosecircular ends have the dimensions shown. The bottom of the rectangular soliddown on the top surface of the cone. Find the pressure (in N/m²)between those twosurfaces. (Ignore air pressure.) (1 kg = 1000 g, 1 m 100 cm)presses10.0 cm8.00 cm15.0 cmr= 2.00 cmR = 6.00 cm

Name: Young's modulusFAL=YAL.Density:M(kg /m³)p=.VFP =AP = P, + pghPressure
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Description: Young's modulusFAL=YAL.Density:M(kg /m³)p=.VFP =AP = P, + pghPressure:(Ра)Buoyancy Force, B = weight in air – weight in fluidArea of a circle = A = Tr²weight = mg,whereg= 9.80 m/s?Pressure:FP=(Ра)AIn liquid: P= P,+pghBuoyancy Force, B = weight in ai

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A rectangular solid made of aluminum has a density p= 2.70 g/cm³. The dimensions of the solid are shown below. The solid is placed on top of a truncated cone whose circular ends have the dimensions shown. The bottom of the rectangular solid presses down on the top surface of the cone. Find the pressure (in N/m²)between those two surfaces. (Ignore air pressure.) (1 kg = 1000 g, 1 m 100 cm)

A rectangular solid made of aluminum has a density p= 2.70 g/cm³. The dimensions of the solid are shown below. The solid is placed on top of a truncated cone whose circular ends have the dimensions shown. The bottom of the rectangular solid presses down on the top surface of the cone. Find the pressure (in N/m²)between those two surfaces. (Ignore air pressure.) (1 kg = 1000 g, 1 m 100 cm)

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter14: Fluid Mechanics

Section: Chapter Questions

Problem 89P: A container of water has a cross-sectional area of A=0.1m2 . A piston sits top of the water (see be...

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