transcribe th following text in digital format for finding the total pressure onbottom parts of the spheretop andimmersed inпо ше use-à liquid,the[ P = P₁ + pgh |PoрдаWhere P is the pressure at a certaindepth,Po is the atmospheric pressure althe surface of the liquid,p is the density of the liquid,g is at the acceleration due togravity,h is the depth of the liquid.Top part of the spherePtop = Po + pgh topBottom part of the spherePbottom = Po + pgh bottom = Po+pg (h+a).Ронруа.[ The density p ofрthe liquid isto be constant throughout]assumed

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Description: transcribe th following text in digital format for finding the total pressure onbottom parts of the spheretop andimmersed inпо ше use-à liquid,the[ P = P₁ + pgh |PoрдаWhere P is the pressure at a certaindepth,Po is the atmospheric pressure althe sur

To find the total pressure on the top and bottom parts of the sphere immersed in a liquid, we…

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Physics

for finding the total pressure on top and bottom parts the sphere immersed in we use. liquid, P = P₁ + Pgh | Where P is the pressure at a depth, Po is the atmospheric pressur the surface of the liquid, P is the density of the liquid, g is the acceleration due to gravity, h is the depth of the liquid. certain sure al (Top part of the sphere Ptop = Po + pghtop = Poreya. Bottom part of the sphere) Phottom= Pot Pyheation = P₁+pg (h+a). bottom [The density P assumed to the liquid is be Constant throughout]

for finding the total pressure on top and bottom parts the sphere immersed in we use. liquid, P = P₁ + Pgh | Where P is the pressure at a depth, Po is the atmospheric pressur the surface of the liquid, P is the density of the liquid, g is the acceleration due to gravity, h is the depth of the liquid. certain sure al (Top part of the sphere Ptop = Po + pghtop = Poreya. Bottom part of the sphere) Phottom= Pot Pyheation = P₁+pg (h+a). bottom [The density P assumed to the liquid is be Constant throughout]

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter9: Fluids And Solids

Section: Chapter Questions

Problem 3P: The weight of Earths atmosphere exerts an average pressure of 1.01 105 Pa on the ground at sea...

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