A diver 40 m deep in 10∘C fresh water exhales a 1.0-cm-diameter bubble.

What is the bubble's diameter just as it reaches the surface of the lake, where the water temperature is 20∘C? Assume that the air bubble is always in thermal equilibrium with the surrounding water.

Express your answer to two significant figures and include the appropriate units.

Question

Marcos Hammond

Physics

27 August, 01:19

A diver 40 m deep in 10∘C fresh water exhales a 1.0-cm-diameter bubble.

What is the bubble's diameter just as it reaches the surface of the lake, where the water temperature is 20∘C? Assume that the air bubble is always in thermal equilibrium with the surrounding water.

Express your answer to two significant figures and include the appropriate units.

+2

Answers (1)

Know the Answer?

Kelly Kemp · Answer 1

Applying gas law:

PV = nRT = > nR = PV/T

nR = Constant at all conditions and thus;

PV/T = Constant.

Therefore.

P1V1/T1 = P2V2/T2

Where P = Pressure, V = Volume, T = Temperature in Kelvin

State 1: At 40 m deep

P1 = Atmospheric pressure + water pressure = 101325 + rho*g*h = 101325+1000*9.81*40 = 493725 Pa

V1 = Volume of the bubble = 4/3*πd^3/64 = π*1^2/4 = 0.0654 cm^3

T1 = 10+273.15 = 283.15 K

State 2: At the surface of the lake

P2 = Atmospheric pressure = 101325 Pa

T2 = 20+273.15 = 293.15 K

V2 = ?

Solving for V2

V2 = (T2*P1V1) / (T1*P2) = (293.15*493725*0.0654) / (283.15*101325) = 0.3302 cm^3

But,

V2 = 4/3*πD^3/64 = > D = cube root (3/4*V2*64) = 2.512 cm

The diameter of the bubbles as it reaches the surface is 2.5 cm rounded to two significant figures.