Scientists found evidence that Mars may once have gad an ocean that is 0.500 km deep. The acceleration due to gravity on mars is 3.72 m/s2. What would be the fluid pressure (in Pa) at the bottom of the ocean?To solve this, which of the following is/are the best equation/s to use (check as many that applies): Scientist found evidence that mars may once have had an ocean that is 0.500 km deep. The acceleration due to gravity on mars is 3.71 m/s2. Whatwould be the fluid pressure (in Pa) at the bottom of the ocean ?To solve this, which of the following is/are the best equation/s to use (check as many as many that applies)1Pa + pghz + 글p글 =P1+ pghi + priQ = mLO AL = «LOATdQAS = [F=maOp =m/VWe =QHO F1 _ F2A1 A2O PV = nRTE=F/q1 ]9192]4 TEO r2W =dv F=maOp =m/VWe =QHO F1 _ F2A1A2O PV = nRTE=F/q1 |4192|F =4πεοV2W =dvQ= mcATA1V1=A2V2O fEdA =9 enc€0O P= pghO dU = dQ – dWo Tk =Tc+273.15KO Fb =P fluidgV submerged

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Description: Scientists found evidence that Mars may once have gad an ocean that is 0.500 km deep. The acceleration due to gravity on mars is 3.72 m/s2. What would be the fluid pressure (in Pa) at the bottom of the ocean?To solve this, which of the following is/a

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Scientists found evidence that Mars may once have gad an ocean that is 0.500 km deep. The acceleration due to gravity on mars is 3.72 m/s2. What would be the fluid pressure (in Pa) at the bottom of the ocean? To solve this, which of the following is/are the best equation/s to use (check as many that applies):

Scientists found evidence that Mars may once have gad an ocean that is 0.500 km deep. The acceleration due to gravity on mars is 3.72 m/s2. What would be the fluid pressure (in Pa) at the bottom of the ocean? To solve this, which of the following is/are the best equation/s to use (check as many that applies):

Physics for Scientists and Engineers: Foundations and Connections

1st Edition

ISBN:9781133939146

Author:Katz, Debora M.

Publisher:Katz, Debora M.

Chapter1: Getting Started

Section: Chapter Questions

Problem 51PQ

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