When you are swimming at the bottom of a pool, the water above and around you exerts force on your eardrum. Calculate the force (in N) exerted on your eardrum when you are at the bottom of a pool that is 5.0 m deep. Assume that the area of your eardrum is 1 cm^2 and the density of water is 1000 kg/m^3 (10,000 cm^2 = 1m^2) (Ans: 5N) To solve this, which of the following equation/s should you use (check as many that best applies) O Q= MCAT O F1_ F2 A1 A2 O Q = mL O PV = nRT 9 enc €0 O A1V1= A2V2 O du = dQ – dW or AU= Q- W O TK = Tc+273.15K O E=F/q O F=ma O P= pgh O Fp =P fluidgV submerged O AL = «L0AT W = V1 Op =m/V

When you are swimming at the bottom of a pool, the water above and around you exerts force on your eardrum. Calculate the force (in N) exerted on your eardrum when you are at the bottom of a pool that is 5.0 m deep. Assume that the area of your eardrum is 1 cm^2 and the density of water is 1000 kg/m^3 (10,000 cm^2 = 1m^2) (Ans: 5N) To solve this, which of the following equation/s should you use (check as many that best applies) O Q= MCAT O F1_ F2 A1 A2 O Q = mL O PV = nRT 9 enc €0 O A1V1= A2V2 O du = dQ – dW or AU= Q- W O TK = Tc+273.15K O E=F/q O F=ma O P= pgh O Fp =P fluidgV submerged O AL = «L0AT W = V1 Op =m/V

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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When you are swimming at the bottom of a pool, the water above and around you exerts force on your eardrum. Calculate the force (in N) exerted on your eardrum when you are at the bottom of a pool that is 5.0 m deep. Assume that the area of your eardrum is 1 cm^2 and the density of water is 1000 kg/m^3 (10,000 cm^2 = 1m^2) (Ans: 5N) To solve this, which of the following equation/s should you use (check as many that best applies) O TK=T+273.15K W = dv O E=F/q O P= pgh O F=ma O Q=mL AS = O A,V1= A2V2 O AL- OLOAT OP2 + pghz + O Q=mcAT O fi F2 A2 A1 1 |9192| F3= 4περ e =1· O du = dQ - dW or AU= Q- W Op=m/v O Fb=P ruiagV submerged P3D 9 enc O PV = nRT
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