An ideal gas, initially at a pressure of 9.1 atm and a temperature of 311 K,...
An ideal gas, initially at a pressure of 9.1 atm and a temperature of 311 K, is allowed to expand adiabatically until its volume doubles.What is the gas’s final pressure, in atmospheres, if the gas is diatomic?
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An ideal gas, initially at a pressure of 9.1 atm and a
temperature of 311 K,...
One mole of an ideal diatomic gas (with y = 1.4) is initially at a temperature,...
One mole of an ideal diatomic gas (with y = 1.4) is initially at a temperature, pressure, and volume of 0°C, 100 atm, and 0.224 liters, respectively. It is allowed to expand adiabatically until its final pressure is reduced to 10 atm. What is the final temperature? O degrees Celsius. - 132 degrees Celsius. - 17 degrees Celsius 142 degrees Celsius.
An ideal monatomic gas initially has a temperature of 267 K and a pressure of 6.14...
An ideal monatomic gas initially has a temperature of 267 K and a pressure of 6.14 atm. It is to expand from volume 488 cm3 to volume 1610 cm3. If the expansion is isothermal, what are (a) the final pressure and (b) the work done by the gas? If, instead, the expansion is adiabatic, what are (c) the final pressure and (d) the work done by the gas?
An ideal gas with ?=1.4 occupies 5.5L at 300 K and 150kPa pressure and is compressed...
An ideal gas with ?=1.4 occupies 5.5L at 300 K and 150kPa pressure and is compressed adiabatically until its volume is 2.0 L. It's then cooled at constant pressure until it reaches 300 K, then allowed to expand isothermally back to state A. A)Find the net work done on the gas B) Find the minimum volume reached.
1. A gas sample occupying a volume of 28.5 mL at a pressure of 0.933 atm...
1. A gas sample occupying a volume of 28.5 mL at a pressure of 0.933 atm is allowed to expand at constant temperature until its pressure reaches 0.377 atm. What is its final volume? 2. Under constant-pressure conditions a sample of hydrogen gas initially at 35.00°C and 6.30 L is cooled until its final volume is 1.50 L. What is its final temperature in C?
The ideal gas initially at 500 K and 1 atm was compressed adiabatically under two conditions...
The ideal gas initially at 500 K and 1 atm was compressed adiabatically under two conditions to 5 atm pressure. The final temperature (Ti) under reversible condition and the final temperature (T2) under irreversible condition are related by: O Ti > T2 O T = T2 OT <T2
(a) An ideal gas initially at pressure po undergoes a free expansion until its volume is...
(a) An ideal gas initially at pressure po undergoes a free expansion until its volume is 5.30 times its initial volume. What then is the ratio of its pressure to po? (b) The gas is next slowly and adiabatically compressed back to its original volume. The pressure after compression is (5.30)1/3po. Is the gas monatomic, diatomic, or polyatomic? (c) What is the ratio of the average kinetic energy per molecule in this final state to that in the initial state?...
An ideal gas with γ=1.4 occupies 5.0 L at 300 K and 100 kPa pressure and...
An ideal gas with γ=1.4 occupies 5.0 L at 300 K and 100 kPa pressure and is heated at constant volume until its pressure has doubled. It's then compressed adiabatically until its volume is one-fourth its original value, then cooled at constant volume to 300 K , and finally allowed to expand isothermally to its original state. Find the net work done on the gas in Joules.
(a) An ideal gas initially at pressure po undergoes a free expansion until its volume is...
(a) An ideal gas initially at pressure po undergoes a free expansion until its volume is 2.30 times its initial volume. What then is the ratio of its pressure to po? (b) The gas is next slowly and adiabatically compressed back to its original volume. The pressure after compression is (2.30)1/320. Is the gas monatomic, diatomic, or polyatomic? (c) What is the ratio of the average kinetic energy per molecule in this final state to that in the initial state?...
A sample of argon gas at a pressure of 0.972 atm and a temperature of 23.5...
A sample of argon gas at a pressure of 0.972 atm and a temperature of 23.5 °C, occupies a volume of 679 mL. If the gas is allowed to expand at constant temperature until its pressure is 0.588 atm, the volume of the gas sample will be ____ mL.
n = 4.04 mol of Hydrogen gas is initially at T = 370.0 K temperature and...
n = 4.04 mol of Hydrogen gas is initially at T = 370.0 K temperature and pi = 2.65×105 Pa pressure. The gas is then reversibly and isothermally compressed until its pressure reaches pf = 7.11×105 Pa. What is the volume of the gas at the end of the compression process? How much work did the external force perform? How much heat did the gas emit? How much entropy did the gas emit? What would be the temperature of the...
One mole of an ideal diatomic gas (with y = 1.4) is initially at a temperature, pressure, and volume of 0°C, 100 atm, and 0.224 liters, respectively. It is allowed to expand adiabatically until its final pressure is reduced to 10 atm. What is the final temperature? O degrees Celsius. - 132 degrees Celsius. - 17 degrees Celsius 142 degrees Celsius.
The ideal gas initially at 500 K and 1 atm was compressed adiabatically under two conditions to 5 atm pressure. The final temperature (Ti) under reversible condition and the final temperature (T2) under irreversible condition are related by: O Ti > T2 O T = T2 OT <T2
(a) An ideal gas initially at pressure po undergoes a free expansion until its volume is 5.30 times its initial volume. What then is the ratio of its pressure to po? (b) The gas is next slowly and adiabatically compressed back to its original volume. The pressure after compression is (5.30)1/3po. Is the gas monatomic, diatomic, or polyatomic? (c) What is the ratio of the average kinetic energy per molecule in this final state to that in the initial state?...
(a) An ideal gas initially at pressure po undergoes a free expansion until its volume is 2.30 times its initial volume. What then is the ratio of its pressure to po? (b) The gas is next slowly and adiabatically compressed back to its original volume. The pressure after compression is (2.30)1/320. Is the gas monatomic, diatomic, or polyatomic? (c) What is the ratio of the average kinetic energy per molecule in this final state to that in the initial state?...
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