Gauge pressure and fluids problem

AI Thread Summary
To determine the gauge pressure in an automobile tire when the temperature rises from 0.64°C to 39°C, the relevant equation is P1/T1 = P2/T2, where P and T represent absolute pressure and temperature, respectively. The initial gauge pressure is 27 lb/in², and the atmospheric pressure is constant at 14.7 lb/in². The discussion clarifies that the ideal gas law applies under constant volume and gas amount conditions. Participants confirm understanding of the variables involved, including "n" as the number of moles and "R" as the universal gas constant. The solution is reached by applying the correct formula for the temperature-pressure relationship in gases.
kitty9035
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1. Homework Statement [/b
An automobile tire having a temperature of .64 degrees C is filled to a gauge pressure of 27 lb ft/in2. What would be the gauge pressure in the tire when its temperature rises to 39 degrees C?

Homework Equations



Assume the volume remains constant, the air doesn't leak out, and the atmospheric pressure remains constant at 14.7 lb ft/in2

The Attempt at a Solution



i'm pretty sure your supposed to use the equation p=pg + po. How do I find the gauge pressure with a temperature increase??
 
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You're right that you have to use that equation, and there is one other, too. What equation do you know that relates the pressure and temperature of a gas?
 
would it be PV=nRT? I didn't learn about this yet. I just looked it up. What does the n and R stand for?
 
That's what I had in mind. If you haven't learned that, maybe you have learned some form of it for the particular case where the volume and amount of gas are constant? Does this look familiar?:
\frac{P_1}{T_1}=\frac{P_2}{T_2}
In this equation P and T are the absolute temperature and pressure, and 1 and 2 refer to different times.

By the way, in the ideal gas law "n" is the number of moles of gas and "R" is the universal gas constant, which is just a constant value.
 
Thank you! I got the answer:smile:
 
LeonhardEuler said:
That's what I had in mind. If you haven't learned that, maybe you have learned some form of it for the particular case where the volume and amount of gas are constant? Does this look familiar?:
\frac{P_1}{T_1}=\frac{P_2}{T_2}
In this equation P and T are the absolute temperature and pressure, and 1 and 2 refer to different times.

By the way, in the ideal gas law "n" is the number of moles of gas and "R" is the universal gas constant, which is just a constant value.
Proportions are always more precise because they are independent of sig figs
 
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