Can a ground state energy be negative?

In summary, The ground state is the state with the lowest energy, which in this case is -25 eV. However, the numerical value of the energy is arbitrary and it is the energy differences that are important. Therefore, the system would be the same if the energies were defined as 0, 20, 25, 30, and 50eV, but it would not be possible to compare these energies to those measured from a system using a different reference point.
  • #1
Kites
39
0
Just a short question.

I have five energies.

-25 eV
-5 eV
0 eV
5 eV
25 eV

The textbook definition is that the ground state is the state with the lowest energy, i.e. I believe 0 in this case.

But that is taking the absolute value of theenergies.

In reality the lowest energy is -25 eV so is it instead actually the -25 eV in this case
 
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  • #2
Yes, energies can be negative, so -25eV is the correct answer. The way that energy is defined, it's not really the numerical value of the energy that is important (it's completely arbitrary), but it's the energy differences that matter. So, you could define the five energies as 0, 20, 25, 30, and 50eV and the system would pretty much be the same (although you could not compare these energies measured from a system using a different reference point).
 

What is a ground state energy?

A ground state energy is the lowest possible energy that a physical system can have. It is the energy that a system will have when it is at its most stable state.

Can a ground state energy be negative?

Yes, a ground state energy can be negative. This means that the system has less energy than the minimum amount of energy that it could possibly have.

What does it mean if a ground state energy is negative?

If a ground state energy is negative, it means that the system is in a state of energy that is lower than its most stable state. This can occur in certain quantum mechanical systems.

Is a negative ground state energy physically possible?

Yes, a negative ground state energy is physically possible in certain systems, such as quantum mechanical systems. However, it is not possible in classical systems.

What are the implications of a negative ground state energy?

The implications of a negative ground state energy vary depending on the system in question. In some cases, it may indicate the presence of exotic phenomena, such as quantum tunneling. In other cases, it may have practical applications, such as in the development of new materials or technologies.

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