Force on Photon? Interaction with Matter Explained

In summary, the conversation discusses the interaction between photons and matter and whether it can be modeled by Newtonian forces. It is concluded that forces cannot be applied to photons and the discussion is closed. The topic of mutual forces between current-carrying wires is also briefly mentioned, but it is suggested to start a new thread in the Classical Physics forum for further discussion.
  • #1
bob012345
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Do we speak of forces on photons?
When photon interact with matter there is a force. Do we speak in terms of Newtonian action-reaction? When a photon exerts a force on matter -an action- do we speak of a force on the photon - a reaction? Thanks.
 
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  • #2
We cannot speak of forces on photons. The interaction between "matter" and photons (i.e. quantized radiation) cannot be modeled by forces, let alone Newtonian ones.
 
  • #3
Thanks. So if light has a pressure on a solar sail, what do we call it? And whatever we call it, then you woud argue that Netwon's Third Law just isn't relevant? Thanks.
 
  • #4
In a simple example of two current carrying wires, there are mutual forces. Do we speak of the forces on each wire as action-reaction or as someone I'm debating with, each wire and the photons from the other wire as action-reaction? Or both?
 
  • #5
bob012345 said:
So if light has a pressure on a solar sail, what do we call it?

We call it classical physics, not quantum physics. But you put this thread in the quantum physics forum and used the term "photon" in your OP, not "light". Which theoretical framework do you want to use?

If you want to use the classical framework, then you can open a new thread in the Classical Physics forum, not using the term "photon", to ask about how things like solar sails are modeled classically.

If you want to use the quantum framework, then the answer @dextercioby gave is correct.

Either way, this thread is closed.
 
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  • #6
bob012345 said:
In a simple example of two current carrying wires, there are mutual forces. Do we speak of the forces on each wire as action-reaction or as someone I'm debating with, each wire and the photons from the other wire as action-reaction? Or both?

This question belongs in the Classical Physics forum, not here. Please start a new thread there if you want to discuss it. And again, the term "photon" has no place in a classical physics discussion.

This thread remains closed.
 

FAQ: Force on Photon? Interaction with Matter Explained

1. What is the force on a photon?

The force on a photon is typically described as being zero since photons have no mass. However, they do have momentum and can exert a very small force on objects they interact with.

2. How do photons interact with matter?

Photons can interact with matter through various processes such as absorption, scattering, and emission. These interactions depend on the properties of the matter and the energy of the photon.

3. What is the concept of momentum transfer in photon-matter interactions?

Momentum transfer in photon-matter interactions refers to the transfer of momentum from a photon to an object it interacts with. This can result in a change in the object's motion or a change in the photon's direction and energy.

4. How does the energy of a photon affect its interaction with matter?

The energy of a photon determines the type of interaction it will have with matter. Higher energy photons are more likely to be absorbed or cause ionization, while lower energy photons are more likely to be scattered.

5. What are some real-life applications of understanding the force on photons and their interaction with matter?

Understanding the force on photons and their interaction with matter is crucial in fields such as optics, solar energy, and medical imaging. It also plays a role in technologies like lasers, LEDs, and photovoltaic cells.

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