Problem: A sample of hydrogen gas (diatomic) has 3.6´1023 particles and is kept at a pressure...

n = 3.50 mol of Hydrogen gas is initially at T = 309.0 K temperature and...

n = 3.50 mol of Hydrogen gas is initially at T = 309.0 K temperature and pi = 2.34×105 Pa pressure. The gas is then reversibly and isothermally compressed until its pressure reaches pf = 8.91×105 Pa. 1. What is the volume of the gas at the end of the compression process?   1.01×10-2 m^3 2. How much work did the external force perform? 3. How much heat did the gas emit? 4. How much entropy did the gas emit? 5....

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?

n = 4.44 mol of Hydrogen gas is initially at T = 357.0 K temperature and...

n = 4.44 mol of Hydrogen gas is initially at T = 357.0 K temperature and pi = 3.03×105 Pa pressure. The gas is then reversibly and isothermally compressed until its pressure reaches pf = 9.97×105 Pa. a) What is the volume of the gas at the end of the compression process? b) How much work did the external force perform? c) How much heat did the gas emit? d) How much entropy did the gas emit? e) What would...

ir is mostly a mixture of diatomic oxygen and nitrogen; treat it as an ideal gas...

ir is mostly a mixture of diatomic oxygen and nitrogen; treat it as an ideal gas with ?=1.40, ?v =20.8J⋅mol−1⋅K−1. Theuniversalgasconstantis?=8.315J⋅mol−1 K−1. The compression ratio of a diesel engine is 15:1, meaning that air in the cylinders is compressed to 1/15 of its initial volume. If the initial pressure is 1.01 × 105 Pa and the initial temperature is 300 K, find: i) The final temperature after adiabatic compression. ii) The final pressure after adiabatic compression. iii) How much work...

An ideal diatomic gas contracts in an isobaric process from 1.15 m3 to 0.600 m3 at...

An ideal diatomic gas contracts in an isobaric process from 1.15 m3 to 0.600 m3 at a constant pressure of 1.70 ✕ 105 Pa. If the initial temperature is 445 K, find the work done on the gas, the change in internal energy, the energy transfer Q, and the final temperature. (a) the work done on the gas (in J) (b) the change in internal energy (in J) (c) the energy transfer Q (in J) (d) the final temperature (in...

n = 4.42 mol of Hydrogen gas is initially at T = 304.0 K temperature and...

n = 4.42 mol of Hydrogen gas is initially at T = 304.0 K temperature and pi = 3.23×105 Pa pressure. The gas is then reversibly and isothermally compressed until its pressure reaches pf = 8.93×105 Pa. What is the volume of the gas at the end of the compression process? Tries 0/12 How much work did the external force perform? Tries 0/12 How much heat did the gas emit? Tries 0/12 How much entropy did the gas emit? Tries...

n = 3.71 mol of Hydrogen gas is initially at T = 300.0 K temperature and...

n = 3.71 mol of Hydrogen gas is initially at T = 300.0 K temperature and pi = 2.78×105 Pa pressure. The gas is then reversibly and isothermally compressed until its pressure reaches pf = 9.52×105 Pa. What is the volume of the gas at the end of the compression process? Tries 0/20 How much work did the external force perform? Tries 0/20 How much heat did the gas emit? Tries 0/20 How much entropy did the gas emit? Tries...

n = 3.63 mol of Hydrogen gas is initially at T = 316.0 K temperature and...

n = 3.63 mol of Hydrogen gas is initially at T = 316.0 K temperature and pi = 2.58×105 Pa pressure. The gas is then reversibly and isothermally compressed until its pressure reaches pf = 8.99×105 Pa. What is the volume of the gas at the end of the compression process? Tries 0/20 How much work did the external force perform? Tries 0/20 How much heat did the gas emit? Tries 0/20 How much entropy did the gas emit? Tries...

n = 3.39 mol of Hydrogen gas is initially at T = 364.0 K temperature and...

n = 3.39 mol of Hydrogen gas is initially at T = 364.0 K temperature and pi = 3.36×105 Pa pressure. The gas is then reversibly and isothermally compressed until its pressure reaches pf = 9.88×105 Pa. What is the volume of the gas at the end of the compression process? Tries 0/12 How much work did the external force perform? Tries 0/12 How much heat did the gas emit? Tries 0/12 How much entropy did the gas emit? Tries...

An ideal gas goes through the following two-step process. 1) The container holding the gas has...

An ideal gas goes through the following two-step process. 1) The container holding the gas has a fixed volume of 0.240 m3 while the pressure of the gas increases from 2.00×105 Pa to 4.00×105 Pa . 2) The container holding the gas is then compressed to a volume of 0.150 m3 while maintaining a constant pressure of 4.00×105 Pa . Part A What is the total work done by the gas for this two-step process?