The temperature of an ideal gas is raised from 298 K to 402 K in a process that increases the heat content of the gas by 1000 J. What is the work performed on the system by this process? Assume that C -R and CR for the gas, and these are constant. Hint: It will be 2 P 2 helpful to evaluate AU for this process.
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- The picture shows a pV diagram for an ideal gas in which its pressure tripled from a to b when 804 J of heat was put into the gas. Work done on or by the gas between a and b= 0 W Delta U=804 J a) What is the temperature of the gas at point bb in terms of its temperature at a, Ta?Needs Complete typed solution with 100 % accuracy.Please help me
- Please provide solution, thanks.A monatomic ideal gas at 27.0°C undergoes a constant volume process from A to B and a constant-pressure process from B to C. where P1 = 2.20, P2 = 4.40, V1 = 2.20, and V2 = 4.40. Find the total work done on the gas during these two processes.Can you help me show the process in this problem? Thermodnamics At 25 °C 1 mol of an ideal gas is expanded isothermally from 2 to 20 dm3. Calculate ΔA and ΔG. Do the values depend on whether the process is reversible or irreversible? Ans: -5.71 kJ/mol and 5.71 kJ/mole respectively.
- p (kPa) Он 400 5) The figure shows a pV diagram for a cycle of a heat engine for which Q, = 25 J. What is the thermal efficiency of the engine? 200 (Hint: remember to convert cm³ to m³!) A) 17% B) 34% C) 8.5% D) 64% E) 40% 100 V (em³) 200For an ideal gas in an isothermal process, there is no change in internal energy. Suppose the gas does work W during such a process. How much energy is transferred by heat?Find the total change in the internal energy of a gas that is subjected to the following two-step process. In the first step the gas is made to go through isochoric heating until it gains 5863 J and its pressure is 3.72 x 10° Pa. In the second step it is subjected to isobaric adiabatic compression until its volume decreases by 7.50 x 103 m³. What is the total change in .internal.energy.,of this gas? Enter a number. Finition of isochoric and isobaric processes. What is the work done during each process? J