How much energy does light transfer to an object?

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Discussion Overview

The discussion revolves around the energy transfer of light to objects, specifically focusing on the energy transferred to non-reflective and reflective surfaces, the pressure exerted by light, and the implications of different reference frames on energy and momentum. The scope includes theoretical considerations and conceptual clarifications related to electromagnetic theory and relativistic effects.

Discussion Character

  • Exploratory
  • Technical explanation
  • Conceptual clarification
  • Debate/contested

Main Points Raised

  • Some participants note that a non-reflective object absorbs energy from light, while a perfectly reflective mirror does not gain energy, despite experiencing pressure that is twice that of the absorptive object.
  • It is proposed that the mirror gains a tiny bit of energy due to red-shifting of reflected light in one reference frame, while in another frame, the mirror loses energy and the light is blue-shifted.
  • One participant highlights that kinetic energy is frame-dependent, suggesting that the energy question cannot be answered without specifying a reference frame.
  • Another participant mentions that if the light source and mirror are stationary with respect to each other, they cannot gain kinetic energy relative to one another.
  • There is a discussion about the implications of adding a third object to the system and whether it affects the energy transfer dynamics.
  • Some participants argue that the energy transferred between the light and the mirror nets to zero, depending on the chosen reference frame.
  • Concerns are raised about the conservation of energy in non-inertial frames, suggesting complexities in analyzing the system.

Areas of Agreement / Disagreement

Participants express differing views on the nature of energy transfer and momentum in reflective versus absorptive scenarios. There is no consensus on how to interpret the energy dynamics in various reference frames, and the discussion remains unresolved regarding the implications of adding additional objects to the system.

Contextual Notes

The discussion highlights limitations related to the dependence on reference frames, the definitions of energy and momentum, and the complexities introduced by non-inertial frames. These factors contribute to the uncertainty in the claims made by participants.

alanf
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On my E&M final, a question asked 1) how much energy a light beam transferred to a non-reflective object in x seconds (3 joules), 2) what pressure the light exerted on the object during that time, and 3) what energy would be transferred to a perfectly reflective mirror by the same beam of light. The answer to 3 was zero, which seems intuitive - 100% of the energy has to be returned into space - yet the pressure on the mirror should be twice that on the absorptive object. So it should gain momentum. So how can it gain no energy?
 
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alanf said:
The answer to 3 was zero, which seems intuitive - 100% of the energy has to be returned into space - yet the pressure on the mirror should be twice that on the absorptive object. So it should gain momentum. So how can it gain no energy?
It does gain an exceedingly tiny bit of energy. As you say, the mirror gains a tiny bit of momentum. In the frame of reference where the mirror starts at rest, the light that it reflects is red-shifted by a tiny amount and thereby loses a tiny bit of energy.

On the other hand, if you adopt the frame of reference where the mirror ends at rest, the mirror loses energy and the light is blue-shifted.
 
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alanf said:
So it should gain momentum. So how can it gain no energy?
In the limiting case, where the mass of the mirror goes to infinity, the gain in kinetic energy goes to zero while the change in momentum stays finite. That's because one depends on velocity squared, while the other just on velocity.
 
The reference frame is missing from the problem statement. Kinetic energy is frame dependent, therefore the energy question can not be answered without choosing a reference. jbriggs444 said it in post #3

jbriggs444 said:
It does gain an exceedingly tiny bit of energy. As you say, the mirror gains a tiny bit of momentum. In the frame of reference where the mirror starts at rest, the light that it reflects is red-shifted by a tiny amount and thereby loses a tiny bit of energy.

On the other hand, if you adopt the frame of reference where the mirror ends at rest, the mirror loses energy and the light is blue-shifted.
 
Thank everyone. I knew that the mirror had to pick up some energy from the light. It was kind of an odd question to put on the final, since the prof had made an effort in lectures to point out that reflective objects are under twice the radiation pressure of absorptive objects.
 
Just to be clear, though: pressure isn't energy and doesn't necessarily cause an energy transfer.
AT said:
In the limiting case, where the mass of the mirror goes to infinity, the gain in kinetic energy goes to zero while the change in momentum stays finite.
Or if the light source and mirror are both fixed to the same object, the energy transfer is exactly zero.
 
russ_watters said:
Or if the light source and mirror are both fixed to the same object, the energy transfer is exactly zero.
Why?
 
A.T. said:
Why?
Just to clarify, that was kinetic energy due to the motion of the object that is hit. If they are stationary wrt each other, they can't get kinetic energy wrt each other.

Now that I think about it though, that's still an open system and the object they are sitting on could still gain kinetic energy wrt an outside frame.
 
I do not view it as having anything to do with an outside object. It is a simple transaction between the light and the mirror. The energy that is transferred between them will net to zero -- whatever is gained by the light will be lost by the mirror and vice versa. However, which one gains and which loses is determined by the choice of reference frame, not by anything physical.
 
  • #10
russ_watters said:
Now that I think about it though, that's still an open system and the object they are sitting on could still gain kinetic energy wrt an outside frame.
There are no "outside" and "inside" frames, just inertial and non-inertial ones. The rest frame of the connected mirror and source is non-inertial, so energy isn't even conserved in that frame.
 
  • #11
A.T. said:
There are no "outside" and "inside" frames, just inertial and non-inertial ones. The rest frame of the connected mirror and source is non-inertial, so energy isn't even conserved in that frame.
I know I'm changing the scenario even more, but if we add a 3rd object, also connected to the mirror and source, located behind the source and colored black, doesn't this device now become non-accelerating by virtue of the fact that it is now closed, so the photons don't escape?
 
  • #12
Is the light considered to be part of the device or separate from the device? You don't close a system by putting physical boundaries around it. You close a system by putting notional boundaries around it.
 
  • #13
russ_watters said:
I know I'm changing the scenario even more, but if we add a 3rd object, also connected to the mirror and source, located behind the source and colored black, doesn't this device now become non-accelerating by virtue of the fact that it is now closed, so the photons don't escape?
Yes, except for the period when you switch on the the lights source, but the photons haven’t reached the black screen yet.
 
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