A container contains 1 mole of N2 gas at a temperature of 373 K. How many...

5. One mole of oxygen gas is at a pressure of 6.90 atm and a temperature...

5. One mole of oxygen gas is at a pressure of 6.90 atm and a temperature of 25.0°C. (a) If the gas is heated at constant volume until the pressure triples, what is the final temperature? °C (b) If the gas is heated so that both the pressure and volume are doubled, what is the final temperature? °C 6. (a) An ideal gas occupies a volume of 1.6 cm3 at 20°C and atmospheric pressure. Determine the number of molecules of...

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

A sealed container holds 0.020 moles of ideal nitrogen (N2) gas, at a pressure of 1.5 atm and a temperature of 290 K. The atomic mass of nitrogen is 14.0 g/mol. How many molecules of nitrogen are in the container? (R = 8.31 J/mol • K, 1 atm = 101 kPa)

2.60 moles of chlorine gas are at a temperature of 291 K. Take the molar mass...

2.60 moles of chlorine gas are at a temperature of 291 K. Take the molar mass of chlorine to be 70.9 g/mol. Evaluate the number of molecules of chlorine that have speeds between 3.00 ✕ 102 m/s and 3.02 ✕ 102 m/s. ________ molecules ?

At a particular temperature a 2.00-L flask at equilibrium contains 2.10E-4 mole of N2, 2.50E-5mole of...

At a particular temperature a 2.00-L flask at equilibrium contains 2.10E-4 mole of N2, 2.50E-5mole of O2, and 2.00E-2 mole of N2O . Calculate K at this temperature for the reaction 2N2(g)+O2(g)= 2N2O(g) K = ___________ If [N2] = 2.00E-4 M, [N2O] = 0.200 M, and [O2] = 0.00138 M, does this represent a system at equilibrium? _____(Yes or No)

A cubical box with each side of length 0.255 m contains 1.095 moles of neon gas...

A cubical box with each side of length 0.255 m contains 1.095 moles of neon gas at room temperature (293 K). What is the average rate (in atoms/s) at which neon atoms collide with one side of the container? The mass of a single neon atom is 3.35 10-26 kg. _______ atoms/s

Consider a mole of an ideal monatomic gas, Xe, inside a container with rigid walls. The...

Consider a mole of an ideal monatomic gas, Xe, inside a container with rigid walls. The ideal gas is heated up as a flame is applied to the container’s exterior. The molar mass of Xe is 0.131 kg. The gas does not transfer any heat to the container. Answer the following questions. A.) Before the flame is lit, the pressure of the gas inside the container is 10.1x10^5 Pa and the temperature of the gas is 295 K. If at...

Suppose that 4.8 moles of an ideal diatomic gas has a temperature of 1061 K, and...

Suppose that 4.8 moles of an ideal diatomic gas has a temperature of 1061 K, and that each molecule has a mass 2.32 × 10-26 kg and can move in three dimensions, rotate in two dimensions, and vibrate in one dimension as the bond between the atoms stretches and compresses. It may help you to recall that the number of gas molecules is equal to Avagadros number (6.022 × 1023) times the number of moles of the gas. a) How...

Liquid helium is stored at its boiling-point temperature of 4.2 K in a spherical container (r...

Liquid helium is stored at its boiling-point temperature of 4.2 K in a spherical container (r = 0.30 m). The container is a perfect blackbody radiator. The container is surrounded by a spherical shield whose temperature is 77 K. A vacuum exists in the space between the container and the shield. The latent heat of vaporization for helium is 2.1 x 104 J/ kg. What mass of liquid helium boils away through a venting valve in one hour?

A tank contains one kilomole of a monatomic ideal gas, argon, and has a pressure of...

A tank contains one kilomole of a monatomic ideal gas, argon, and has a pressure of 1 atm and a temperature of 300 K. The mass of an argon atom is 6.63 x 10-26 kg. a.) Calculate the internal energy, U, of the gas in Joules. b.) Calculate the average energy per atom in eV. (1eV = 1.602 x 10-19 J) c.) Calculate the partition function, Z. d.) Calculate the entropy of the assembly, S

A 10.0 L container contains 1.0 L of solution of a gas. Assume [gas] = 1.5...

A 10.0 L container contains 1.0 L of solution of a gas. Assume [gas] = 1.5 x 10^-4 M in solution when 2 mol of gas remains in gas form. If 1 mol of gas is removed from the gas phase, what will be the new concentration of the gas in the solution? What is the value of k? c = kP