Why are photons affected by gravity?

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Photons, despite being massless, are affected by gravity due to their energy and momentum, as explained by General Relativity, which couples gravity to these properties rather than mass. In Newtonian gravity, the acceleration due to gravity is independent of an object's mass, suggesting that massless objects like photons could also be influenced. However, General Relativity reveals that the actual deflection of light by gravity is twice what Newtonian predictions suggest. Additionally, while light traveling along a gravitational field experiences a change in frequency, its speed remains constant. Understanding these concepts can be further explored in advanced texts suitable for younger audiences.
ayush solanki
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Photons are massless,so why does it get affected by gravity?and are neutrinos affected by gravity too?thank you.
 
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Because General Relativity couples to energy, momentum, pressure, and twisting forces rather than mass. Gravity looks like it only couples to mass in most situations because rest mass energy is so much greater than kinetic energy, momentum, pressure, or twisting forces in most situations.

Photons don't have mass, and can't experience twisting forces, but do have momentum, pressure, and energy.
 
OK thank you a lot.
 
Note that there is a priori no reason not to believe massless objects would not be affected by gravity in the Newtonian setting. The gravitational acceleration in Newtonian gravity is independent of the mass of the object (a = g) also if we take the limit ##m\to 0##.
 
Can you suggest an advanced book to better understand it?
 
Which a 16 year old can understand?
 
ayush solanki said:
Can you suggest an advanced book to better understand it?
If you drop a rock near the Earth, the acceleration imparted to the rock by gravity from the Earth is completely independent of the rock's mass. You can then estimate the impact that Newtonian gravity should have on a light beam by just saying that it's an object that is traveling at speed c.

However, if you try doing this, you get the wrong answer. The actual deflection is twice what you would expect from Newtonian gravity alone. General Relativity predicts this extra factor of two.
 
Chalnoth said:
However, if you try doing this, you get the wrong answer. The actual deflection is twice what you would expect from Newtonian gravity alone. General Relativity predicts this extra factor of two.
It is also worth noting that this is for a light beam traveling perpendicular to the gravitational field. Newtonian gravity alone would also predict the light to accelerate when traveling along the gravitational field - which is also wrong, it changes in frequency but not in speed.
 
Thanks a lot guys.that was very helpful.
 

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