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)

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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)

 

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 PV = nRT
P= pgh
1 |9192|
F =
4 TEO r2
1
Pz+ pghz + 글아글= D1+ pgh, + 늘pr?
W =
dv
F
P=
A
E=F/q
dQ
AS = |
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 PV = nRT P= pgh 1 |9192| F = 4 TEO r2 1 Pz+ pghz + 글아글= D1+ pgh, + 늘pr? W = dv F P= A E=F/q dQ AS = |
Ορ-m/ν
O Fb =P fluidgV submerged
Q= mL
Tc
e = 1-
Th
O A1V1= A2V2
O F1
F2
A1
A2
F=ma
TK = Tc+273.15K
AL= xLoAT
O Q = mcAT
O du = dQ – dW or AU = Q- W
9 enc
Transcribed Image Text:Ορ-m/ν O Fb =P fluidgV submerged Q= mL Tc e = 1- Th O A1V1= A2V2 O F1 F2 A1 A2 F=ma TK = Tc+273.15K AL= xLoAT O Q = mcAT O du = dQ – dW or AU = Q- W 9 enc
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