a cylinder contains 10 moles of an ideal gas at a temperature of 300 K. The...
a cylinder contains 10 moles of an ideal gas at a temperature of 300 K. The gas is compressed at constant pressure until the final volume equals 0.77 times the initial volume. The molar heat capacity at constant volume of the gas is 24.0 j/mol. What is the heat absorbed by the gas in kJ
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a cylinder contains 10 moles of an ideal gas at a temperature of
300 K. The...
d. Two moles of an ideal gas are compressed in a cylinder at a constant temperature...
d. Two moles of an ideal gas are compressed in a cylinder at a constant temperature of (75°C) until the original pressure, (2x10$ Pa), is tripled. Given that (R = 8.314 J/mol-K), Find: (1) The amount of work done. () The final volume of the gas.
A cylinder contains 9.8 moles of ideal gas, initially at a temperature of 119°C. The cylinder is provided with a frictio...
A cylinder contains 9.8 moles of ideal gas, initially at a temperature of 119°C. The cylinder is provided with a frictionless piston, which maintains a constant pressure of 7.4 × 105 Pa on the gas. The gas is cooled until its temperature has decreased to 27°C. For the gas CV = 14.41 J/mol ∙ K, and the ideal gas constant R = 8.314 J/mol · K. (a) Find the work done by (or on) the gas during this process. Is...
Two moles of an ideal monoatomic gas is initially at 300 K and 1 bar of...
Two moles of an ideal monoatomic gas is initially at 300 K and 1 bar of pressure inside a cylinder with a frictionless piston. a) Calculatethekineticenergyforthissystemat300K. b) Calculate the heat capacity at constant volume. c) How much heat is required to increase the temperature by 10°C. d) What is the final pressure after heating, if there is no change in volume.
A cylinder with a movable piston contains 17.5 moles of a monatomic ideal gas at a...
A cylinder with a movable piston contains 17.5 moles of a monatomic ideal gas at a pressure of 1.66 × 105 Pa. The gas is initially at a temperature of 300 K. An electric heater adds 46600 J of energy into the gas while the piston moves in such a way that the pressure remains constant. It may help you to recall that CPCP = 20.79 J/K/mole for a monatomic ideal gas, and that the number of gas molecules is...
There is a cylinder which contains 1 mole of ideal gas which initial pressure, volume, temperature...
There is a cylinder which contains 1 mole of ideal gas which initial pressure, volume, temperature is A, B, D. If heat(q) is injected to this cylinder, the pressure of gas changed into sqrt(2)R*A, the volume of gas changed into 2.5B, and the temperature of gas changed into 5*sqrt(R)*D. Calculate the heat in terms of A, B, D. (Molar heat capacity Cv=2R).
A cylinder contains 1.2 moles of ideal gas, initially at a temperature of 116°C. The cylinder...
A cylinder contains 1.2 moles of ideal gas, initially at a temperature of 116°C. The cylinder is provided with a frictionless piston, which maintains a constant pressure of 6.4 x 105 Pa on the gas. The gas is cooled until its temperature has decreased to 27°C. For the gas Cy= 11.65 J/mol K, and the ideal gas constant R = 8.314 J/mol K. Part A Find the work done by (or on the gas during this process. Express your answer...
5.00 moles of an ideal gas are contained in a cylinder with a constant external pressure...
5.00 moles of an ideal gas are contained in a cylinder with a constant external pressure of 1.00 atm and at a temperature of 523 K by a movable, frictionless piston. This system is cooled to 423 K. A) calculate work done on or by the system, w (J) B. Given that the molar heat capacity for an ideal gas is 20.8 J/mol K, calculate q (J) C. Calculate the change in internal energy for this ideal system,in J
A cylinder with a movable piston contains 11.7 moles of a monatomic ideal gas at a...
A cylinder with a movable piston contains 11.7 moles of a
monatomic ideal gas at a pressure of 1.32 × 105 Pa. The gas is
initially at a temperature of 300 K. An electric heater adds 43200
J of energy into the gas while the piston moves in such a way that
the pressure remains constant. It may help you to recall that CP C
P = 20.79 J/K/mole for a monatomic ideal gas, and that the number
of gas...
7. A 0.2 moles of diatomic gas are contained in a cylinder at 300 K and atmospheric pressure 1*10...
7. A 0.2 moles of diatomic gas are contained in a cylinder at 300 K and atmospheric pressure 1*10^5 Pa. The gas receives 1000 J of heat in an ideal adiabatic transformation. Calculate the change of internal energy, the work done on the gas and the final volume and temperature of the gas.
14. A cylinder contains 3.00 mol of Helium at a temperature of 300 K. (a) If...
14. A cylinder contains 3.00 mol of Helium at a temperature of 300 K. (a) If the gas is heated to constant volume, how much energy should be transferred as heat to the gas if its temperature rises to 500 K? (b) How much energy is transferred as heat to the gas at constant pressure to increase its temperature to 500 K? Ans: (a) Q = 7500 J, (b) Q = 12.5 x 103
d. Two moles of an ideal gas are compressed in a cylinder at a constant temperature of (75°C) until the original pressure, (2x10$ Pa), is tripled. Given that (R = 8.314 J/mol-K), Find: (1) The amount of work done. () The final volume of the gas.
A cylinder contains 1.2 moles of ideal gas, initially at a temperature of 116°C. The cylinder is provided with a frictionless piston, which maintains a constant pressure of 6.4 x 105 Pa on the gas. The gas is cooled until its temperature has decreased to 27°C. For the gas Cy= 11.65 J/mol K, and the ideal gas constant R = 8.314 J/mol K. Part A Find the work done by (or on the gas during this process. Express your answer...
A cylinder with a movable piston contains 11.7 moles of a
monatomic ideal gas at a pressure of 1.32 × 105 Pa. The gas is
initially at a temperature of 300 K. An electric heater adds 43200
J of energy into the gas while the piston moves in such a way that
the pressure remains constant. It may help you to recall that CP C
P = 20.79 J/K/mole for a monatomic ideal gas, and that the number
of gas...
14. A cylinder contains 3.00 mol of Helium at a temperature of 300 K. (a) If the gas is heated to constant volume, how much energy should be transferred as heat to the gas if its temperature rises to 500 K? (b) How much energy is transferred as heat to the gas at constant pressure to increase its temperature to 500 K? Ans: (a) Q = 7500 J, (b) Q = 12.5 x 103
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