A container with volume 1.64 L is initially evacuated. Then it is filled with 0.241 g...

A 0.50 L container is initially filled with Nitrogen gas at STP. The gas expands against...

A 0.50 L container is initially filled with Nitrogen gas at STP. The gas expands against a piston adiabatically to a volume of 50.0% larger than the original volume. The Nitrogen may be treated as an ideal gas with ?=7/5. a) Calculate the final temperature and pressure. b) What is the work done? c) Sketch a pV-diagram for this process. On this diagram also draw the isotherms for the initial and final temperatures.

A 1.0 L container was filled by pumping into it 1.0 L of N2 at 20.0cm...

A 1.0 L container was filled by pumping into it 1.0 L of N2 at 20.0cm Hg, 1.00 L of O2 at 155 torr, and 1.0 L of He at 0.450 atm. All volumes and pressures were measured at the same temperature. What was the total pressure inside the container after the mixture was made? For some reason my book lists this as a difficult problem but I got the answer 697 torr. My question is what implications does contant...

A container encloses 30.9 g of CO2(g). The partial pressure of CO2 is 2.43 atm and...

A container encloses 30.9 g of CO2(g). The partial pressure of CO2 is 2.43 atm and the volume of the container is 33.4 L. What is the average, or root mean square, speed (in m/s) of the CO2 molecules in this container?

A container encloses 32.2 g of CO2(g). The partial pressure of CO2 is 2.33 atm and...

A container encloses 32.2 g of CO2(g). The partial pressure of CO2 is 2.33 atm and the volume of the container is 34.3 L. What is the average, or root mean square, speed (in m/s) of the CO2 molecules in this container?

A 202 L tractor tire is filled up in the morning at a temperature of 15.1...

A 202 L tractor tire is filled up in the morning at a temperature of 15.1 degree celcius to a gauge pressure of 35.3 psi. By afternoon the temperature increases by 15.7 degree celcius, the gauge pressure increases by 2 psi, but the volume decreases to 94% of it original value. Use the ideal gas law to find out how many molecules leaked out. Show work and answer for points.

A rigid 5.0-L container that is filled with neon gas initially has a temperature of 5.0⁰...

A rigid 5.0-L container that is filled with neon gas initially has a temperature of 5.0⁰ C at a pressure of 80 kPa. What is the pressure of the gas if its temperature increases to 40⁰ C? Name the thermal process that brought about the temperature increase of the gas.

A rigid 5.0-L container that is filled with neon gas initially has a temperature of 5.0⁰...

A rigid 5.0-L container that is filled with neon gas initially has a temperature of 5.0⁰ C at a pressure of 80 kPa. What is the pressure of the gas if its temperature increases to 40⁰ C? Name the thermal process that brought about the temperature increase of the gas.

A rigid 5.0-L container that is filled with neon gas initially has a temperature of 5.0⁰...

A rigid 5.0-L container that is filled with neon gas initially has a temperature of 5.0⁰ C at a pressure of 80 kPa. What is the pressure of the gas if its temperature increases to 40⁰ C? Name the thermal process that brought about the temperature increase of the gas.

A monatomic ideal gas in a container of fixed volume contains 4.10 × 10^24 atoms. a)...

A monatomic ideal gas in a container of fixed volume contains 4.10 × 10^24 atoms. a) If you add enough thermal energy to double the root-mean-square speed of the gas atoms, by how much have you changed the entropy of the gas?

Consider 4.30 L of a gas at 365 mmHg and 20. ∘C . If the container...

Consider 4.30 L of a gas at 365 mmHg and 20. ∘C . If the container is compressed to 2.90 L and the temperature is increased to 32 ∘C , what is the new pressure, P2, inside the container? Assume no change in the amount of gas inside the cylinder. What pressure would it take to compress 250. L of helium gas initially at 1.00 atm into a 2.00 L tank at constant temperature? A balloon filled with 2.00 L...