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= mL O F1 F2 A1 A2 F=ma O A1V1= A2V2 O GEDA = 9 enc €0 O AL= «LOAT O du = dQ - dW or AU= Q- W O PV = nRT P2 + pgh2 +pv=P1+pgh1 Op= A O as- S9 O P= pgh Tc e = 1- Th V2 AP. Ow= O Fp = P fluidgV submerged Ορ-m/V 1 |4192| F = 4 TEO O Tk=T+273.15K
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= mL O F1 F2 A1 A2 F=ma O A1V1= A2V2 O GEDA = 9 enc €0 O AL= «LOAT O du = dQ - dW or AU= Q- W O PV = nRT P2 + pgh2 +pv=P1+pgh1 Op= A O as- S9 O P= pgh Tc e = 1- Th V2 AP. Ow= O Fp = P fluidgV submerged Ορ-m/V 1 |4192| F = 4 TEO O Tk=T+273.15K
Principles of Physics: A Calculus-Based Text
5th Edition
ISBN:9781133104261
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter14: Superposition And Standing Waves
Section: Chapter Questions
Problem 38P: As shown in Figure P14.37, water is pumped into a tall, vertical cylinder at a volume flow rate R....
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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 Q = mL
O F1_ F2
A1
A2
O F=ma
O A1V1= A2V2
O fEdA = denc
€0
Ο ΔL αLo Δ .
O du = dQ - dW or AU= Q- W
O PV = nRT
Pz +pgh2 + pv=P1+pgh1+
F
Op=
O as-S
O P= pgh
O e=!
Tc
1-
Tn
Ow-ov
V2
W =
O Fp = P fluidgV submerged
Op =m/V
F =
4πεο
O Tk = T+273.15K](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F5e588981-ef11-45b3-be12-6b154f91742c%2F5f001844-6351-4874-89db-986ca1c6af42%2Fg6ss8e_processed.jpeg&w=3840&q=75)
Transcribed Image Text: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 = mL
O F1_ F2
A1
A2
O F=ma
O A1V1= A2V2
O fEdA = denc
€0
Ο ΔL αLo Δ .
O du = dQ - dW or AU= Q- W
O PV = nRT
Pz +pgh2 + pv=P1+pgh1+
F
Op=
O as-S
O P= pgh
O e=!
Tc
1-
Tn
Ow-ov
V2
W =
O Fp = P fluidgV submerged
Op =m/V
F =
4πεο
O Tk = T+273.15K
![To solve this, which of the following equation/s should you use (check as many that best applies)
O Q = mL
O F1_ F2
A1
A2
O F=ma
O A,V1= A2V2
O fEdA = Ienc
€0
Ο ΔL Lo Δ .
O du = dQ- dW or AU = Q-W
O PV = nRT
Pz + pghz + 글p을 =P1+ pghi +
F
Op=
A
O as = S
O P=pgh
Tc
O e=1
Th
V2
W =
O Fp= P fluidgV submerged
Op =m/V
1 ]9192]
F =
4 TIEO
O Tk=Tc+273.15K
O Q= mcAT
O E=F/q](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F5e588981-ef11-45b3-be12-6b154f91742c%2F5f001844-6351-4874-89db-986ca1c6af42%2Ftnq3ddm_processed.jpeg&w=3840&q=75)
Transcribed Image Text:To solve this, which of the following equation/s should you use (check as many that best applies)
O Q = mL
O F1_ F2
A1
A2
O F=ma
O A,V1= A2V2
O fEdA = Ienc
€0
Ο ΔL Lo Δ .
O du = dQ- dW or AU = Q-W
O PV = nRT
Pz + pghz + 글p을 =P1+ pghi +
F
Op=
A
O as = S
O P=pgh
Tc
O e=1
Th
V2
W =
O Fp= P fluidgV submerged
Op =m/V
1 ]9192]
F =
4 TIEO
O Tk=Tc+273.15K
O Q= mcAT
O E=F/q
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