Calculating Force Exerted by Laser Beam on a Mirror

AI Thread Summary
A laser beam with a power of 1 W reflects off a mirror, and the force exerted on the mirror is calculated using the momentum of photons. Each photon has energy E = hν and momentum P = h/λ, leading to the conclusion that n photons hit the mirror per second, resulting in a force F = 2(nP). The factor of 2 arises because the momentum change is doubled when the photons reflect off the mirror, similar to a ball bouncing off a wall. If the light were absorbed instead of reflected, the factor would be 1, indicating the importance of momentum change in determining the force. The calculations confirm that the force exerted by the laser beam on the mirror is approximately 6.67 x 10^-9 N.
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Homework Statement



A laser beam (\mathrm{Power} = 1\ \mathrm{W}) is completely reflected by a mirror perpendicular to the beam. Light is made of photons, and each photon carries an energy E = h\nu and a momentum P = h/\lambda, where \nu is the frequency, \lambda is the wavelength and h is Planck's constant. Find the force with which light pushes the mirror.

Homework Equations


Apart from those already present in the problem statement, I have:
\lambda \nu = c

F = \frac{dp}{dt}

The Attempt at a Solution


Each second, the light source emits n photons, each one carries an energy E = h\nu = hc/\lambda, for a total power of 1\ \mathrm{W}. This gives:

\displaystyle n = \frac P E = \frac{\lambda}{hc}

In one second then, n photons hit the mirror and bounce back, which gives:

\displaystyle F = \frac{dp}{dt} = n \cdot 2p = 2 \frac{\lambda}{hc}\cdot \frac{h}{\lambda} = \frac 2 c \approx 6.67\cdot 10^{-9}\ \mathrm{N}

The result is somewhat intuitively pleasing, can you check it is correct, please?
 
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Looks good to me.
 
Whew... Thank you Doc for checking :)
 
Sorry to dig up such an old question, but after looking at this question, I don't understand were the 2 comes from in the F=n2p. Could someone explain this to me?
Thanks
 
The momentum is twice the incoming photon's because it bounces back
Think of a ball, if you throw it to hit a wall and stop then you need twice as much force for it to hit the wall and come back at the same speed.
 
That is to say, if it was not a mirror, and the light did not reflect off the surface, the 2 would be a 1 instead?
 
faiyth said:
Sorry to dig up such an old question, but after looking at this question, I don't understand were the 2 comes from in the F=n2p.
It comes from the fact that the change in momentum is twice the original momentum.
 
faiyth said:
That is to say, if it was not a mirror, and the light did not reflect off the surface, the 2 would be a 1 instead?

Yes. If the light is absorbed then it's a 1. As Doc Al said, it's all about change in momentum.
 

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