Posted by **maria** on Tuesday, December 27, 2011 at 7:18am.

Suppose 2 moles of an ideal gas are enclosed in a container of volume 2.70·10^4 m^3. The container is then placed in a furnace and raised to a temperature of 390 K. What is the final pressure of the gas?

- physics -
**drwls**, Tuesday, December 27, 2011 at 7:33am
Use the ideal gas law:

P V = n R T

You know what V, n and T are .

R is the molar gas constant, 8.317 J/mole*K

The computed value of P will be in pascals (Pa), which is N/m^2

## Answer This Question

## Related Questions

- chemistry - Ideal Mixed Gas Law problems 1. What is the pressure generated by a ...
- Physics - Consider an ideal gas enclosed within a container with a moveable ...
- chemistry - If I contain 3 moles of gas in a container with a volume of 60 ...
- pressure - a flexible container at an initial volume of 7.14L contains 9.51mol ...
- Chem - a container of 2.00 moles of an ideal gas as 1000 K undergoes a constant ...
- chem - A flexible container at an initial volume of 8.15 L contains 2.51 mol of ...
- Chem - A flexible container at an initial volume of 5.12 L contains 7.51 mol of ...
- Intro to Physics - (a) An ideal gas occupies a volume of 3.0 cm3 at 20°C and ...
- physics - sealed metal container can withstand a pressure difference of 0.630 . ...
- physics - A closed container with a volume of 8000cm^3 is filled with Xenon gas...

More Related Questions