6. There are 5.00x1026 atoms/m3 in a container of argon gas (atomic mass number 40). The...

A container holds 1.5 g of argon at a pressure of 6.5 atm. How much heat...

A container holds 1.5 g of argon at a pressure of 6.5 atm. How much heat is required to increase the temperature by 100∘ C at constant volume? How much will the temperature increase if this amount of heat energy is transferred to the gas at constant pressure?

0.15 mol of argon gas is admitted to an evacuated 40 cm3 container at 20∘C. The...

0.15 mol of argon gas is admitted to an evacuated 40 cm3 container at 20∘C. The gas then undergoes an isochoric heating to a temperature of 500 ∘C.What is the final pressure of the gas?

Argon is stored in a container of volume 2 litres at a pressure of 3 atmospheres....

Argon is stored in a container of volume 2 litres at a pressure of 3 atmospheres. The amount of gas present is 0.2 mole The gas is allowed to expand to a final volume of 4 litres while the temperature is held constant. Find the final pressure of the gas, and (ii) the work done on the gas. Explain the significance of the sign of the work term. You may assume that argon behaves as an ideal monatomic gas. The...

0.15 mol of argon gas is admitted to an evacuated 40 cm3 container at 40 ∘C....

0.15 mol of argon gas is admitted to an evacuated 40 cm3 container at 40 ∘C. The gas then undergoes an isothermal expansion to a volume of 400 cm3 What is the final pressure of the gas?

A sealed container of volume V = 0.10 m3 holds a sample of N = 3.0...

A sealed container of volume V = 0.10 m3 holds a sample of N = 3.0 × 1024 atoms of helium gas in equilibrium. The distribution of speeds of the helium atoms shows a peak at 1.1 × 103 m s−1. (i) Calculate the temperature and pressure of the helium gas. (ii) What is the average kinetic energy of the helium atoms? (iii) What is the energy corresponding to the maximum in the energy distribution? (Take the mass of each...

0.10 mol of argon gas is admitted to an evacuated 40 cm3 container at 20 ∘...

0.10 mol of argon gas is admitted to an evacuated 40 cm3 container at 20 ∘ C. The gas then undergoes an isothermal expansion to a volume of 100 cm3 . What is the final pressure of the gas?

A certain ideal gas has atomic mass number 806. A flask of volume 0.0996 m3 holds...

A certain ideal gas has atomic mass number 806. A flask of volume 0.0996 m3 holds this gas under pressure 8.36x105 Pa and temperature 304 K. How many molecules are in the flask? Give your answer is scientific notation.

A sealed cubical container 23.0 cm on a side contains a gas with three times Avogadro's...

A sealed cubical container 23.0 cm on a side contains a gas with three times Avogadro's number of argon atoms at a temperature of 27.0°C. (a)Find the internal energy (in J) of the gas. ___J (b)The total translational kinetic energy (in J) of the gas. __J (c)Calculate the average kinetic energy (in J) per atom. __J (d) Use P = (2/3)(N/V)(1/2mv^2) to calculate the gas pressure (in Pa). __Pa (e) Calculate the gas pressure (in Pa) using the ideal gas...

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...

Problem: A sample of monatomic ideal gas containing 6.02´1023 atoms occupies a volume of 2.24´10-2 m3...

Problem: A sample of monatomic ideal gas containing 6.02´1023 atoms occupies a volume of 2.24´10-2 m3 at a pressure of 1.01´105 Pa. With the volume held constant, the gas is cooled until the atoms are moving at a root-mean-square speed of 402 m/s. The mass of each atom is 6.646´10-27 kg. What is the initial temperature of the gas? What is the final temperature of the gas? What is the change in entropy of the gas?