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8) The diagram below represents the P-V change for one mole of an ideal gas. Start...
One mole of ideal gas is confined in a cylinder by a piston and is in...
One mole of ideal gas is confined in a cylinder by a piston and is in the thermal contact with a heat reservoir with T=To. As a result, gas slowly expands from V1 to V2 while at the same temperature To. The internal energy of the gas does not change. Calculate work done by the gas and the heat flow into the gas.
The PV diagram below represents 2.79 mol of an ideal monatomic gas. The gas is initially at point A. The paths AD and B...
The PV diagram below represents 2.79 mol of an ideal monatomic gas. The gas is initially at point A. The paths AD and BC represent isothermal changes. If the system is brought to point C along the path ABC, find the following: P atm 4.0 1.0 4.01 20.0 V.L (a) the initial and final temperatures of the gas initia final b) the work done by the gas (c) the heat absorbed by the gas eBook
The PV diagram below represents...
The PV diagram below represents 3.21 mol of an ideal monatomic gas. The gas is initially at point A. The paths AD and B...
The PV diagram below represents 3.21 mol of an ideal monatomic gas. The gas is initially at point A. The paths AD and BC represent isothermal changes. If the system is brought to point C along the path ABC, find the following: Р, atm 4.0 1.0 200 VL 4.01 (a) the initial and final temperatures of the gas initial 60.9 final 75.9 (b) the work done by the gas kJ (c) the heat absorbed by the gas kJ
The PV...
One mole of an ideal mono-atomic gas is in a state A characterized by a temperature...
One mole of an ideal mono-atomic gas is in a state A characterized by a temperature TA. The gas is then subjected to a succession of three quasi-static reversible processes: An isothermal expansion A → B, which increases the volume by a factor y. The expansion factor is therefore y = VB / VA> 1. An adiabatic compression B → C which increases the pressure by a factor w. The compression factor is w = pC / pB> 1. A...
Figure 2.4 shows a cyclic path in the P -V diagram of an ideal gas. The...
Figure 2.4 shows a cyclic path in the P -V diagram of an ideal
gas. The result is that the net work done on the gas is the
negative of the area enclosed by the path
.
Assume that the gas is ideal with N particles and calculate the
energy transfer by heating in each step of the process. Then
explain why the net work done on the gas is negative and show that
the net change of the internal...
1. (12 points) A cyclic process is given in the figure below. It starts at P1,...
1. (12 points) A cyclic process is given in the figure below. It starts at P1, Vi, goes along path A to P2, V2, and then returns to the start by going along path B. p is the pressure and V is the volume. This system is an ideal gas, which obeys the “ideal gas law": pV = NKT (this is sometimes called the equation of state). (a) Calculate the total work done. This will be a formula in terms...
When a gas follows path 123 on the PV diagram in the figure below, 413.0 J...
When a gas follows path 123 on the PV diagram in the
figure below, 413.0 J of heat flows into the system and
171.0 J of work is done by the system.
What is the change in the internal energy of the system?
Tries 0/10
How much heat flows into the system if the process follows path
143? The work done by the gas along this path is 58.4
J.
Tries 0/10
What net work would be done by the...
When a gas follows path 123 on the PV diagram in the figure below, 419 J...
When a gas follows path 123 on the PV diagram in the
figure below, 419 J of energy flows into the system by heat and
−171 J of work is done on the gas.
A rectangular path is plotted on a PV diagram that has
a horizontal axis labeled V, and a vertical axis labeled
P. The vertices of the rectangle, starting from the
bottom-left corner and continuing clockwise, are labeled in the
following order: 1, 2, 3, 4. The...
When a gas follows path 123 on the PV diagram in the figure below, 424 J...
When a gas follows path 123 on the PV diagram in the figure below, 424 J of energy flows into the system by heat and -166 J of work is done on the gas. (a) What is the change in the internal energy of the system? J (b) How much energy Q flows into the system if the gas follows path 143? The work done on the gas along this path is -63.0 J. J (c) What net work would...
5. One mole of a monatomic ideal gas is subjected to the cyclic process (quasistatic) shown...
5. One mole of a monatomic ideal gas is subjected to the cyclic process (quasistatic) shown below 10 Pa 0.00 0.002 0.003 0.004 Find the following: (a) The net work done in one cycle. Is it positive or negative? (b) The difference in internal energy of the gas between states C and A (c) The heat absorbed by the gas in going from A to C along the path shown
The PV diagram below represents 2.79 mol of an ideal monatomic gas. The gas is initially at point A. The paths AD and BC represent isothermal changes. If the system is brought to point C along the path ABC, find the following: P atm 4.0 1.0 4.01 20.0 V.L (a) the initial and final temperatures of the gas initia final b) the work done by the gas (c) the heat absorbed by the gas eBook
The PV diagram below represents...
The PV diagram below represents 3.21 mol of an ideal monatomic gas. The gas is initially at point A. The paths AD and BC represent isothermal changes. If the system is brought to point C along the path ABC, find the following: Р, atm 4.0 1.0 200 VL 4.01 (a) the initial and final temperatures of the gas initial 60.9 final 75.9 (b) the work done by the gas kJ (c) the heat absorbed by the gas kJ
The PV...
Figure 2.4 shows a cyclic path in the P -V diagram of an ideal
gas. The result is that the net work done on the gas is the
negative of the area enclosed by the path
.
Assume that the gas is ideal with N particles and calculate the
energy transfer by heating in each step of the process. Then
explain why the net work done on the gas is negative and show that
the net change of the internal...
1. (12 points) A cyclic process is given in the figure below. It starts at P1, Vi, goes along path A to P2, V2, and then returns to the start by going along path B. p is the pressure and V is the volume. This system is an ideal gas, which obeys the “ideal gas law": pV = NKT (this is sometimes called the equation of state). (a) Calculate the total work done. This will be a formula in terms...
When a gas follows path 123 on the PV diagram in the
figure below, 419 J of energy flows into the system by heat and
−171 J of work is done on the gas.
A rectangular path is plotted on a PV diagram that has
a horizontal axis labeled V, and a vertical axis labeled
P. The vertices of the rectangle, starting from the
bottom-left corner and continuing clockwise, are labeled in the
following order: 1, 2, 3, 4. The...
When a gas follows path 123 on the PV diagram in the figure below, 424 J of energy flows into the system by heat and -166 J of work is done on the gas. (a) What is the change in the internal energy of the system? J (b) How much energy Q flows into the system if the gas follows path 143? The work done on the gas along this path is -63.0 J. J (c) What net work would...
5. One mole of a monatomic ideal gas is subjected to the cyclic process (quasistatic) shown below 10 Pa 0.00 0.002 0.003 0.004 Find the following: (a) The net work done in one cycle. Is it positive or negative? (b) The difference in internal energy of the gas between states C and A (c) The heat absorbed by the gas in going from A to C along the path shown
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