Gravitational Energy: Why Negative?

In summary, the gravitional energy is negative because the gravitational field possesses the negative energy.
  • #1
ben_jamin
7
0
I remember that someone (maybe Hawking) said the total energy of cosmology is zero: the matter hold the positive energy and gravational field possesses the negative energy. But I can't understand it, why the gravational field's energy is negative? As far as I understood, from the view of gauge field, all the fields should possesses the positive energy with the "positive" particle. If we consider the gravational field as the gauge field or it can be quantized, how to understand the negative?
 
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  • #2
Welcome to these Forums ben jamin!
why the gravational field's energy is negative?
It depends on how you define and measure energy in GR - neither is a trivial task.

On way to look at it is to consider an extended cloud of dust collapsing down under its own gravitational field. As the cloud condenses down the process accelerates; energy has been taken out of the field to give the dust particles kinetic energy and yet the gravitational field and the particles' mutual attraction has increased. Something that gets bigger the more you take out of it is negative - like my overdraft!

Garth
 
  • #3
Usually we consider the energy in GR with the energy and momentum tensor T_\mu\nu, and we think it is positive whatever definition.(Einstein, Laudau or otherone) The different of their definition is for the conservation not for positive or negative energy.

And if you say the energy and momentum tensor T only gives the energy for the matter in the gravity not the curvature, so what's the meaning of energy of curvature? and how to calculate it. Another question: why the negative energy don't annihilate with the positive energy of matter? The related question, is the energy of graviton negative?
 
  • #4
ben_jamin said:
Usually we consider the energy in GR with the energy and momentum tensor T_\mu\nu, and we think it is positive whatever definition.(Einstein, Laudau or otherone) The different of their definition is for the conservation not for positive or negative energy.

And if you say the energy and momentum tensor T only gives the energy for the matter in the gravity not the curvature, so what's the meaning of energy of curvature? and how to calculate it. Another question: why the negative energy don't annihilate with the positive energy of matter? The related question, is the energy of graviton negative?
"And if you say" I do say! Gravitational energy is not described by the energy-momentum tensor, that describes all energy, momentum and stress apart from that which is gravitational. The gravitational energy is described by the Einsteinian tensor and in one convention of defining the Riemannian there is a negative sign connecting the two:-

Rab - 1/2 gab = - 8.pi.G Tab

Defining the energy of a gravitational system is difficult and sometimes impossible, it is only possible for a static system at 'asymptotic flatness'. There are many posts on these Forums about the subject, you can search for "energy".

Garth
 

Related to Gravitational Energy: Why Negative?

1. What is gravitational energy and why is it negative?

Gravitational energy is the potential energy stored in an object due to its position in a gravitational field. It is negative because it is typically measured relative to a reference point, such as the surface of the Earth, where the object has the least amount of potential energy.

2. How is gravitational energy calculated?

Gravitational energy is calculated using the formula U = mgh, where U is the potential energy, m is the mass of the object, g is the acceleration due to gravity, and h is the height of the object relative to the reference point.

3. Why is it important to understand gravitational energy?

Understanding gravitational energy is important in many fields, including physics, engineering, and astronomy. It helps us to understand the forces at work in the universe and how objects interact with each other.

4. Can gravitational energy be converted into other forms of energy?

Yes, gravitational energy can be converted into other forms of energy, such as kinetic energy or thermal energy. For example, when an object falls from a height, its gravitational energy is converted into kinetic energy.

5. How does the concept of negative gravitational energy relate to potential energy?

The concept of negative gravitational energy is related to potential energy because potential energy is always measured relative to a reference point, and in the case of gravitational energy, the reference point is typically where the object has the least amount of potential energy, resulting in a negative value.

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