Calculate Work Done by Gas in 5L Container

In summary, the conversation discussed the concept of work in relation to changes in pressure and volume of a gas in a container. It was clarified that work is a transfer of energy and can be calculated using the formula Work = force x distance or Work = (change in volume) x pressure. However, if the volume remains constant, there is no work done. The conversation also mentioned the possibility of energy transfer through heat and provided the formula for calculating work when both pressure and volume are changing. Finally, it was stated that in the given scenario, the work done by the gas is zero Joules due to the constant volume.
  • #1
summergrl
1
0
Gas in a container increases its pressure from 206 atm to 3 atm while keepings its volume constant.
Find the work done by the gas if the volume is 5L. Answer in units of J.
 
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  • #2
summergrl said:
Gas in a container increases its pressure from 206 atm to 3 atm while keepings its volume constant.
Find the work done by the gas if the volume is 5L. Answer in units of J.


Work done equals change in internal energy. If the presure changes then so does the temperature assuming volume doesn't change( which it doesnt) Work out the temps first and then the change in internal energy.
 
  • #3
Hi girl,
Work is normally thought of as a transfer of energy due to mechanical action such as a piston compressing the gas or the gas pushing on a piston as it happens in the motor of your car.
The formula for work is Work = force x distance , but in the case of a gas being compressed or decompressed, it can be shown that the formula above is equivalent to Work = (change in volume) x pressure.
If your gas in the container changed pressure but the volume stayed constant, then there was no work done (change in volume = 0).
Another way that energy can be transferred is trough heat, which is defined as a transfer of thermal energy.
As you can see, the previous post was wrong. There can be a change in internal energy without any work being done. If you take a closed metal or glass container with a gas in it and put it on the stove, it will warmup. Then the gas pressure will increase but because the volume stays the same, there is no work done.
 
  • #4
If what I wrote is a little confusing, the answer to your homework problem is:
W = P x delta V
W = P[tmospheres] x 0L
W= 0 Liter-Atmosphere = 0J (zero Joules)

The above formula considers constant pressure. In that case, as the change in volume is zero, it does not matter if the pressure changes or not.
If both the volume and pressure were changing then the formula would be:
W = Integral [P(V)dv]

If your problem implied doing calculations you woud have to convert from liter-Atmosphere to Joules. There may be a table of conversions somewhere in your textbook.
Otherwise, convert from Liters to cubic meters and from Atmospheres to Pascals. Using cubic meteres and Pascals you get Joules directly.
 
  • #5
Zero change in volume implies zero work. Period.
 

1. How do you calculate the work done by gas in a 5L container?

To calculate the work done by gas in a 5L container, you will need to know the pressure and volume of the gas. The formula for work done by a gas is W = PΔV, where P is the pressure and ΔV is the change in volume. Simply plug in the values for pressure and the change in volume (which in this case is 5L) into the formula to get the work done by the gas.

2. What is the unit of measurement for work done by gas?

The unit of measurement for work done by gas is joules (J). This is the standard unit for measuring work and energy.

3. Can the work done by gas be negative?

Yes, the work done by gas can be negative. This can happen if the gas is expanding, in which case the work done by the gas is negative because the gas is doing work on the surroundings. On the other hand, if the gas is being compressed, the work done by the gas is positive because work is being done on the gas.

4. What factors can affect the work done by gas in a 5L container?

The work done by gas in a 5L container can be affected by several factors, including the pressure, volume, and temperature of the gas. Additionally, the type of gas and any external forces acting on the container can also impact the work done by the gas.

5. How does the work done by gas in a 5L container relate to the first law of thermodynamics?

The first law of thermodynamics states that energy cannot be created or destroyed, only transferred or converted from one form to another. The work done by gas in a 5L container is an example of energy being converted from one form (e.g. pressure and volume) to another (e.g. work). Therefore, the work done by gas in a 5L container is in accordance with the first law of thermodynamics.

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