A sample consisting of 65.0 g of xenon is confined in a container at 2.00 atm and 298 K
A sample consisting of 65.0 g of xenon is confined in a container at 2.00 atm and 298 K and then allowed to expand adiabatically (a) reversibly to 1.00 atm, (b) against a constant pressure of 1.00 atm. Calculate the final temperature and the expansion work at each case. Use the fact that xenon is a monoatomic gas.
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A sample consisting of 65.0 g of xenon is confined in a container at 2.00 atm and 298 K
a quantity of 0.27 mole of neon is confined in a container at 2 .50 atm...
a quantity of 0.27 mole of neon is confined in a container at 2 .50 atm and 298 K and then allowed to expand adiabatically under two different conditions: (a) reversibly to 1.00 atm and (b) against a constant pressure at 1.00 atm calculate the final temperature in each case.
A quantity of neon, confined in a container at 2.50 atm and 298 K
A quantity of neon, confined in a container at 2.50 atm and 298 K, is allowed to expand reversibly and adiabatically satisfying the relation to a final pressure of 1.0 atm. Find the final temperature of the gas. (A) 107 K (B) 207 K (C) 407 K (D) 103 K (E) 241 K
A sample of 18 g of oxygen gas (O2) is confined in a container at 200 kPa and 273 K.
A sample of 18 g of oxygen gas (O2) is confined in a container at 200 kPa and 273 K. The gas is allowed to expand adiabatically and reversibly to 100 kPa. Calculate the final temperature of the gas. The molar heat capacity at constant pressure (CP,m) of O2 is 29.355 J mol-1 K-1
1.00 mile of a monoatomic ideal gas at 298 K undergoes isothermal expansion from an initial...
1.00 mile of a monoatomic ideal gas at 298 K undergoes
isothermal expansion from an initial pressure of 12.0 bar to 5.00
bar. Calculate the work if the expansion is done
a) against a constant external pressure
b) reversibly and isothermally.
Problem 3 1.00 mole of a monoatomic ideal gas at 298 K undergoes isothermal expansion from an initial pressure of 12.0 bar to 5.00 bar. Calculate the work if the expansion is done (a) against a constant external pressure...
Consider a system consisting of 3.0 mol CO2(g), initially at 35°C and 9.0 atm and confined...
Consider a system consisting of 3.0 mol CO2(g), initially at 35°C and 9.0 atm and confined to a cylinder of cross-section 100.0 cm2. The sample is allowed to expand irreversibly and adiabatically against an external pressure of 2.5 atm until the piston has moved outwards through 25 cm. Assume that carbon dioxide may be considered a perfect gas with CV,m = 28.8 J K–1 mol–1, and calculate (a) q, (b) w, (c) ΔU, (d) ΔT, (e) ΔS.
A sample of an ideal gas in a cylinder of volume 4.14 L at 298 K...
A sample of an ideal gas in a cylinder of volume 4.14 L at 298 K and 2.24 atm expands to 7.48 L by two different pathways. Path A is an isothermal, reversible expansion. Path B has two steps. In the first step, the gas is cooled at constant volume to 1.38 atm . In the second step, the gas is heated and allowed to expand against a constant external pressure of 1.38 atm until the final volume is 7.48...
A sample of an ideal gas in a cylinder of volume 2.82 L at 298 K...
A sample of an ideal gas in a cylinder of volume 2.82 L at 298 K and 2.63 atm expands to 8.40 L by two different pathways. Path A is an isothermal, reversible expansion. Path B has two steps. In the first step, the gas is cooled at constant volume to 1.40 atm, In the second step, the gas is heated and allowed to expand against a constant external pressure of 1.40 atm until the final volume is 8.40L. Calculate...
[8] Consider a system consisting of 1.5 mol CO2(g), initially at 15oC and 9.0 atm and...
[8] Consider a system consisting of 1.5 mol CO2(g), initially at 15oC and 9.0 atm and confined to a cylinder of cross-section 100.0 cm2. The sample is allowed to expand adiabatically against an external pressure of 1.5 atm until the piston has moved outwards through 15 cm. Assume that carbon dioxide may be considered a perfect gas with Cv.m-288] K-1 mol-1, and calculate (a) q, (b) w, (c) Δυ, (d) ΔΤ, (e) as
At 273 K, 1.00 mol of an ideal gas confined to a 2.00-L container exerts a...
At 273 K, 1.00 mol of an ideal gas confined to a 2.00-L container exerts a pressure of 11.2 atm. Under the same conditions, what pressure is exerted by CO2, for which a = 3.59 L2 atm mol-2 and b = 0.0427 L mol-1 0 -0.90 10.5 09.1 O 7.2 11.4
A 0.357 mol sample of CO2(g), initially at 298 K and 1.00 atm, is held at...
A 0.357 mol sample of CO2(g), initially at 298 K and 1.00 atm, is held at constant pressure while enough heat is applied to raise the temperature of the gas by 18.9 K. Calculate the amount of heat ? required to bring about this temperature change, and find the corresponding total change in the internal energy Δ? of the gas. Assume that the constant‑pressure molar specific heat for CO2(g), which consists of linear molecules, is equal to 7?/2, where ?...
1.00 mile of a monoatomic ideal gas at 298 K undergoes
isothermal expansion from an initial pressure of 12.0 bar to 5.00
bar. Calculate the work if the expansion is done
a) against a constant external pressure
b) reversibly and isothermally.
Problem 3 1.00 mole of a monoatomic ideal gas at 298 K undergoes isothermal expansion from an initial pressure of 12.0 bar to 5.00 bar. Calculate the work if the expansion is done (a) against a constant external pressure...
A sample of an ideal gas in a cylinder of volume 2.82 L at 298 K and 2.63 atm expands to 8.40 L by two different pathways. Path A is an isothermal, reversible expansion. Path B has two steps. In the first step, the gas is cooled at constant volume to 1.40 atm, In the second step, the gas is heated and allowed to expand against a constant external pressure of 1.40 atm until the final volume is 8.40L. Calculate...
[8] Consider a system consisting of 1.5 mol CO2(g), initially at 15oC and 9.0 atm and confined to a cylinder of cross-section 100.0 cm2. The sample is allowed to expand adiabatically against an external pressure of 1.5 atm until the piston has moved outwards through 15 cm. Assume that carbon dioxide may be considered a perfect gas with Cv.m-288] K-1 mol-1, and calculate (a) q, (b) w, (c) Δυ, (d) ΔΤ, (e) as
At 273 K, 1.00 mol of an ideal gas confined to a 2.00-L container exerts a pressure of 11.2 atm. Under the same conditions, what pressure is exerted by CO2, for which a = 3.59 L2 atm mol-2 and b = 0.0427 L mol-1 0 -0.90 10.5 09.1 O 7.2 11.4
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> this was awesome thank you
Mizori Fri, Jan 28, 2022 1:36 PM