a 6.0 cm diameter cyliinder of nitrogen gas has a 4.0 cm thick movable copper piston. the cylinder is oriented vertically as shown in the figure, and the air above the piston is evacuated. when the gas temperature is 25 degree C the piston floats 20 cm above the bottom of the cylinder
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a 6.0 cm diameter cyliinder of nitrogen gas has a 4.0 cm thick movable copper piston. the cylinder is oriented vertically as shown in the figure, and the air above the piston is evacuated. when the gas temperature is 25 degree C the piston floats 20 cm above the bottom of the cylinder
what is the final height of the piston?
how much work is done on the gas as the piston rises?
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- A heat engine using 1.0 mol of a monatomic gas follows the cycle shown in the figure. 3750 J of heat = 37507 A heat engine using 1.0 energy is transferred to the gas during process 1 - > 2. (Figure 1) AE₁-2 mol of a monatomic gas follows the cycle shown in the figure. 3750J of heat energy is transferred to the gas S → 3 in this cycle. Express your = Part E Complete previous part( during process 1 → 2. (Figure 1) Correct Part D Determine W for process 2 answer to three significant figures and include the appropriate units. W s) Part F Complete previous part(s) Part G Complete previous part(s) 8-3 p (kPa) Panax 3750 J 300 T₁ = 300 K 0 0 V Vmin Vmax=2VminA gas is taken through the cyclical process shown in the figure below. If each unit on the horizontal axis equals 1.50 m3 and each unit on the vertical axis equals 4.50 x 105 Pa determine the net work done by the gas.A cylindrical pump contains a fixed number of gas molecules. The piston is free to move, but no gas can enter or leave the pump. The pump is also thermally isolated from the surroundings. Neglect friction between the piston and the cylinder walls. The piston is quickly pressed inward. a) Is the work done on the gas positive, negative or Explain your reasoning. Because it is quick there is little to no energy exchanged meening no work was done. A K zero? b) Is the heat transfer to the gas positive, negative or zero? Explain your reasoning. There is also I heat transfer. c) Did the internal energy of the gas increase, decrease or remain the same? Explain your reasoning. d) Does the temperature of the gas increase, decrease or remain the same? Explain your reasoning. e) Does the pressure of the gas increase, decrease or remain the same? Explain your reasoning. g) What type of process is this? f) Sketch a PV diagram representing this process. (Note: I want to know which axis is P and which…
- A gas is confined in a thermally insulated cylinder as shown in the figure below. The gas is compresses as shown in figure (b). Which one of the following statement is true? a. The work done on the gas will be negative b. The work done on the gas will be Positive c The final pressure on the gas will be zero d. The work done on the gas will be Zero yotNeeds Complete typed solution with 100 % accuracy.Consider an ideal gas at constant pressure and temperature. Its volume decreases when the amount of gas decreases because ________________. Select the BEST answer. A. A decrease in volume causes the kinetic energy of particles to decrease. B. A decrease in volume causes the frequency of particle collisions to increase. C. A decrease in amount of gas causes the frequency of particle collisions to decrease.
- - What is the work done on the gas as it expands from ressure P₁ and volume V₁ to pressure P2 and volume V2 long the indicated straight line? a. (P₁-P2) (V₁-V₂)/2 c. (P₁ + P2)(V₁-V2)/2 b. (P₁+P2) (V₁-V2) d. (P₁ P2)(V1 + V2) P₂ P₁ V₁ V₂ 2 VAn ideal gas in a container with a sliding piston is held at atmospheric pressure. Heat is added and the volume increases from 1 m^3 to 3 m^3. The initial temp of the gas is 0 degrees celcius. Question A: How many moles of gas are in this container? Question B: How much work does the gas perform on the piston? Please answer in J Question C: What is the final temperature of the gas? Please answer in degrees celcius Question D: what is the change in internal energy of the gas? Please answer in J Question E: How much heat was added to the gas? Please answer in JNeed help, please. Suppose you have 8.4 L of an ideal gas at 25 °C initially in a container equipped with a piston. You arrange to keep the pressure on the gas equal to 2 atm as you compress the gas to a volume of 2 L. How much work does it take to compress the gas?
- A gas expands from I to F in the figure below. The energy added to the gas by heat is 302 J when the gas goes from I to Falong the diagonal path. Three paths are plotted on a PV diagram, which has a horizontal axis labeled V(liters), and a vertical axis labeled P (atm). The green path starts at point I (2,4), extends vertically down to point B(2,1), then extends horizontally to point F (4,1). The blue path starts at point I (2,4), and extends down and to the right to end at point F (4,1). The orange path starts at point I(2,4), extends horizontally to the right to point A (4,4), then extends vertically down to end at point F(4,1). (a) What is the change in internal energy of the gas?J(b) How much energy must be added to the gas by heat for the indirect path IAF to give the same change in internal energy?JA gas expands from 2.2 L to 3.6 L against a constant external pressure of 1.6 atm. What is the work done? A. -227 J B. 227 J C. 2.24 J D. -2.24 JA gas expands from I to F in the figure below. The energy added to the gas by heat is 212 J when the gas goes from I to F along the diagonal path. Three paths are plotted on a PV diagram, which has a horizontal axis labeled V (liters), and a vertical axis labeled P (atm). The green path starts at point I (2,4), extends vertically down to point B (2,1), then extends horizontally to point F (4,1). The blue path starts at point I (2,4), and extends down and to the right to end at point F (4,1). The orange path starts at point I (2,4), extends horizontally to the right to point A (4,4), then extends vertically down to end at point F (4,1). (a) What is the change in internal energy of the gas? Use the relations between various features of the graph and the work done on the gas to find the energy added by work and then use your result to find the change in internal energy of the gas. J(b) How much energy must be added to the gas by heat for the indirect path IAF to give the same change in…