In a gas expansion, 81 J of heat is absorbed from the surroundings, and the energy...

An ideal gas underwent a process in which it absorbed 7.5 J of energy as heat...

An ideal gas underwent a process in which it absorbed 7.5 J of energy as heat and undergoes an expansion in which it performed 5.0 J of work on its surroundings. If the expansion was performed against a pressure of 101325 Pa, what was the volume change (ΔV) for the expansion? Express your result in units of m^3. (Note: 1 J = 1 Pa m^3).

Calculate the work done on and by the system and surroundings in an isothermal gas expansion...

Calculate the work done on and by the system and surroundings in an isothermal gas expansion at 300K from 10L to 15L for 2 moles of helium. Determine the transfer of heat to and from the system and surroundings as well. (4 values total)

the internal energy of a gas decreases by 1.65kj when it transfers 1.87kj of energy in...

the internal energy of a gas decreases by 1.65kj when it transfers 1.87kj of energy in the form of heat to the surroundings.(a)calculate the work done by the gas on the surroundings.(b)does the volume of gas increase or decrease?

In which situations does the internal energy of enclosed gas system increase? a. The heat gained...

In which situations does the internal energy of enclosed gas system increase? a. The heat gained by the system is less than the work done by the system on the surroundings when the system expands b. The heat gained by the system is more than the work done by the system on the surroundings when the system expands c. The work done on the system when it is compressed is more than the heat lost by the system to the...

A gaseous system releases 14 J of heat and increases its internal energy by 16 J....

A gaseous system releases 14 J of heat and increases its internal energy by 16 J. Which of the following statements is correct? The volume of the system decreases and a positive amount of work is done. The volume of the system increases and a negative amount of work is done. The volume of the system increases and a positive amount of work is done. The volume of the system decreases and a negative amount of work is done. The...

A 0.505-mol sample of an ideal diatomic gas at 408 kPa and 309 K expands quasi-statically...

A 0.505-mol sample of an ideal diatomic gas at 408 kPa and 309 K expands quasi-statically until the pressure decreases to 150 kPa. Find the final temperature and volume of the gas, the work done by the gas, and the heat absorbed by the gas if the expansion is the following. (a) isothermal final temperature K volume of the gas L work done by the gas J heat absorbed J (b) adiabatic final temperature K volume of the gas L...

The figure shows a pV diagram for a gas going through a cycle from A to...

The figure shows a pV diagram for a gas going through a cycle from A to B to C and back to A. From point A to point B, the gas absorbs 50 J of heat and finds its internal (thermal) energy has increased by 20 J. Going from B to C, the internal (thermal) energy decreases by 5.0 J. (a) How much work was done by the gas from A to B? (b) How much work was done by...

A.) A gas confined by a piston expands isobarically at 30 kPa. When 24,000 joules of...

A.) A gas confined by a piston expands isobarically at 30 kPa. When 24,000 joules of heat is absorbed by the system, its volume increases from 0.14 m3 to 0.4 m3. What work is done on the system and what is the change in internal energy? Work Done by the System = Joules Internal Energy Change = Joules B.) The volume of a gas decreases from 7 to 4 liters under a constant pressure of one atmosphere. Is the work...

Find the change in internal energy of a system if 75 J of heat is transferred...

Find the change in internal energy of a system if 75 J of heat is transferred to it, and the system does 45 J of work on the surroundings. If there is no change of state, what happens to the temperature.

260 J of heat is added to a system, and the system dies 486 J of...

260 J of heat is added to a system, and the system dies 486 J of work on the surroundings. what is the change in the internal energy of the system, in J?