Internal energy of a substance.

AI Thread Summary
The internal energy of an ideal gas is dependent solely on temperature, meaning that during an isothermal process, the change in internal energy is indeed zero. However, in the case of real gases, there is a slight dependence on volume, which can affect internal energy. When condensing from saturated vapor to saturated liquid isothermally, the situation differs as it involves both vapor and liquid phases, thus the internal energy does change. This distinction is crucial as it highlights the limitations of the ideal gas model in real-world applications. Understanding these nuances is essential for accurate thermodynamic analysis.
shenjie
Messages
5
Reaction score
0
Hi all, I was taught that internal energy of an ideal gas in depending on the temperature which mean during isothermal process, the change in internal energy is equal to zero. Is this statement true?

How about the change in the internal energy of a substance when it is condensed from saturated vapour to saturated liquid isothermally?

Sincerely thanks to those who help me :)
 
Physics news on Phys.org
shenjie said:
Hi all, I was taught that internal energy of an ideal gas in depending on the temperature which mean during isothermal process, the change in internal energy is equal to zero. Is this statement true?
Yes.
How about the change in the internal energy of a substance when it is condensed from saturated vapour to saturated liquid isothermally?

No. During the condensation, it is not an ideal gas. It's part vapor and part liquid.
 
  • Like
Likes 1 person
shenjie said:
Hi all, I was taught that internal energy of an ideal gas in depending on the temperature which mean during isothermal process, the change in internal energy is equal to zero. Is this statement true?

That's true for an ideal gas, but in real gases there's a slight dependence of internal energy on volume, i.e. the partial derivative ##\left(\frac{\partial U}{\partial V}\right)_{T,n}## is not exactly zero. This is related to the Joule-Thomson effect.
 
  • Like
Likes 1 person
yeah, for a 'true' ideal gas, the internal energy only depends on the temperature (assuming the number of molecules is constant). I think some people call this 'true' ideal gas a 'perfect' gas.
 

Thread 'The Effect of Linear and Rotational Motion on Measured Weight'

Consider an extremely long and perfectly calibrated scale. A car with a mass of 1000 kg is placed on it, and the scale registers this weight accurately. Now, suppose the car begins to move, reaching very high speeds. Neglecting air resistance and rolling friction, if the car attains, for example, a velocity of 500 km/h, will the scale still indicate a weight corresponding to 1000 kg, or will the measured value decrease as a result of the motion? In a second scenario, imagine a person with a...
View full post »
Thread 'Voltmeter readings for this circuit with switches'

Thread 'Voltmeter readings for this circuit with switches'

TL;DR Summary: I would like to know the voltmeter readings on the two resistors separately in the picture in the following cases , When one of the keys is closed When both of them are opened (Knowing that the battery has negligible internal resistance) My thoughts for the first case , one of them must be 12 volt while the other is 0 The second case we'll I think both voltmeter readings should be 12 volt since they are both parallel to the battery and they involve the key within what the...
View full post »
Thread 'Gauss' law seems to imply instantaneous electric field propagation'

Thread 'Gauss' law seems to imply instantaneous electric field propagation'

Imagine a charged sphere at the origin connected through an open switch to a vertical grounded wire. We wish to find an expression for the horizontal component of the electric field at a distance ##\mathbf{r}## from the sphere as it discharges. By using the Lorenz gauge condition: $$\nabla \cdot \mathbf{A} + \frac{1}{c^2}\frac{\partial \phi}{\partial t}=0\tag{1}$$ we find the following retarded solutions to the Maxwell equations If we assume that...
View full post »

Similar threads

I Calculating vapor pressure from Boltzmann distribution?
Replies
0
Views
1K
I Understanding Internal Energy: Kinetic Theory and the Law of Equipartition
Replies
15
Views
2K
I Internal energy of an ideal gas -- confusion
Replies
4
Views
2K
I System, potential energy, and nonconservative forces
Replies
6
Views
2K
I Isentropic Process, General Results for dU and dH
Replies
1
Views
967
I Empirical temperature scales using different thermometers
Replies
7
Views
2K
Enthelpy vs Internal Energy in Phase Change
Replies
12
Views
5K
B Energy of Ideal Gas: Internal E & Kinetic E
Replies
5
Views
2K
I How Can Internal Energy of the Canonical Ensemble Change (Fluctuate)?
Replies
15
Views
2K
Deriving an expression for change in internal energy
Replies
5
Views
1K

Hot Threads

Recent Insights

Back
Top