A sealed container holds 0.020 moles of ideal nitrogen (N2) gas, at a pressure of 1.5...

A rigid cubic container of side 0.25 m is filled with 10 moles of the ideal...

A rigid cubic container of side 0.25 m is filled with 10 moles of the ideal gas Xenon and is then sealed so that no gas can get out or in. The initial pressure of the gas is recorded as 2.8 x 105 Pa. You may use the following values for this question: Gas constant R: 8.31 J/(mol K) Boltzmann constant kB : 1.38 x 10-23 J/K Avogadro's number NA: 6.02 x 1023 /mol A) Determine the total amount of...

suppose a sealed 27m3 tank is filled with 6000 moles of Chlorine gas at an initial...

suppose a sealed 27m3 tank is filled with 6000 moles of Chlorine gas at an initial pressure of 206 kPa. what is the temperature? The gas constant is R=8.314 J/(mol-1x k)

A sealed 51 m3 tank is filled with 9000 moles of ideal oxygen gas (diatomic) at...

A sealed 51 m3 tank is filled with 9000 moles of ideal oxygen gas (diatomic) at an initial temperature of 270 K. The gas is heated to a final temperature of 330 K. The atomic mass of oxygen is 16.0 g/mol. The mass density of the oxygen gas, in SI units, is closest to 11 4.2 5.6 2.8 7.1

A cylinder contains 1.5 moles of ideal gas, initially at a temperature of 113 ∘C. The...

A cylinder contains 1.5 moles of ideal gas, initially at a temperature of 113 ∘C. The cylinder is provided with a frictionless piston, which maintains a constant pressure of 6.4×105Pa on the gas. The gas is cooled until its temperature has decreased to 27∘C. For the gas CV = 11.65 J/mol⋅K, and the ideal gas constant R = 8.314 J/mol⋅K. 1.Find the work done by the gas during this process. 2.What is the change in the internal (thermal) energy of...

1a-Consider a sealed, well-insulated tank filled with 10 moles of gaseous nitrogen, at sufficiently low pressure...

1a-Consider a sealed, well-insulated tank filled with 10 moles of gaseous nitrogen, at sufficiently low pressure that it can be treated as an ideal gas. At an initial time, the methane is at a temperature 300 K. A shaft passes into the tank and performs 100 Joules of shaft work per minute. What is the total change in the internal energy of the tank over 10 minutes, in Joules? b- For the system in problem 1, what is the temperature...

Part A A sample of ideal gas is in a sealed container. The pressure of the...

Part A A sample of ideal gas is in a sealed container. The pressure of the gas is 725 torr , and the temperature is 18 ∘C . If the temperature changes to 75 ∘C with no change in volume or amount of gas, what is the new pressure, P2, of the gas inside the container? Express your answer with the appropriate units. Part B Using the same sample of gas (P1 = 725 torr , T1 = 18 ∘C...

Container A holds 767 mL of ideal gas at 2.80 atm. Container B holds 129 mL...

Container A holds 767 mL of ideal gas at 2.80 atm. Container B holds 129 mL of ideal gas at 4.40 atm. If the gases are allowed to mix together, what is the resulting pressure?

Container A holds 712 mL of ideal gas at 2.40 atm. Container B holds 164 mL...

Container A holds 712 mL of ideal gas at 2.40 atm. Container B holds 164 mL of ideal gas at 4.20 atm. If the gases are allowed to mix together, what is the partial pressure of each gas in the total volume?

Container A holds 732 mL of ideal gas at 2.70 atm. Container B holds 129 mL...

Container A holds 732 mL of ideal gas at 2.70 atm. Container B holds 129 mL of ideal gas at 4.50 atm. If the gases are allowed to mix together, what is the partial pressure of each gas in the total volume?

Container A holds 722 mL of ideal gas at 2.30 atm. Container B holds 114 mL...

Container A holds 722 mL of ideal gas at 2.30 atm. Container B holds 114 mL of ideal gas at 4.80 atm. If the gases are allowed to mix together, what is the partial pressure of each gas in the total volume?