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mike_shaulov
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Please help:
A simple model of a Geyser is an underground huge lake connected to the surface
by a small tube.
let the depth (and the tube length) be 90m.
proove that the ratio between the mass of the water in the lake and the gas which sparks from the geyser is:
\frac{{\Delta M}}{M} = \frac{c}{L}(T_{10} - T_1 )
where:
T1, T10 - are boiling tempertures at 1 atm. pressure, and 10 atm. pressure.
c - water heat capacity.
L - Latent heat.
Clasius Claperon equation (Coexistence line):
P = P_0 \times Exp[\frac{{ - L}}{\tau } + \frac{L}{{\tau _0 }}]
Homework Statement
A simple model of a Geyser is an underground huge lake connected to the surface
by a small tube.
let the depth (and the tube length) be 90m.
proove that the ratio between the mass of the water in the lake and the gas which sparks from the geyser is:
\frac{{\Delta M}}{M} = \frac{c}{L}(T_{10} - T_1 )
where:
T1, T10 - are boiling tempertures at 1 atm. pressure, and 10 atm. pressure.
c - water heat capacity.
L - Latent heat.
Homework Equations
Clasius Claperon equation (Coexistence line):
P = P_0 \times Exp[\frac{{ - L}}{\tau } + \frac{L}{{\tau _0 }}]