Calculating Mirror Mass Using Laser Force

AI Thread Summary
A collimated laser beam of 106 Watts illuminates a micromirror at a 30-degree angle for 0.015 seconds, resulting in a velocity of 1 m/s. The force exerted on the mirror is calculated using the formula Force = 2*(Power/c), leading to a value of approximately 6.12 x 10^-7 N. By applying Newton's second law, the mass of the mirror is determined to be around 9.18 x 10^-9 kg. The discussion highlights the importance of accounting for the angle of incidence in momentum transfer calculations. The calculations are confirmed to be accurate, with suggestions for clearer expression of the angle's influence on force.
Newbie12
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Homework Statement



A collimated laser beam of power P = 106 Watt illuminates a 100%-reflecting
micromirror at an angle of incidence of θ=30 for duration of = 0.015 seconds. Prior to laser
illumination, the mirror is at rest. What is the mass of the mirror m if it acquires velocity
of 1 m/s after laser illumination?
 
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I'd take a guess that you need to find a formula to do with the relationship between energy and momentum for light.

Do you have any more information about the problem sheet you're working on?
 
Newbie12 said:

Homework Statement



A collimated laser beam of power P = 106 Watt illuminates a 100%-reflecting
micromirror at an angle of incidence of θ=30 for duration of = 0.015 seconds. Prior to laser
illumination, the mirror is at rest. What is the mass of the mirror m if it acquires velocity
of 1 m/s after laser illumination?
Please write the relevant equations and demonstrate effort by showing one's attempt as solving the problem.

Note that photons have energy and momentum.
 
Here is my cut at it. (Had some family issues, sorry for the delay)

Homework Statement



A collimated laser beam of power P = 106 Watt illuminates a 100%-reflecting
micromirror at an angle of incidence of ?=30 for duration of = 0.015 seconds. Prior to laser
illumination, the mirror is at rest. What is the mass of the mirror m if it acquires velocity
of 1 m/s after laser illumination?

Power = 106 (W)
Angle of Incidence = 30 degrees
Time = 0.015 (s)
Velocity = (1 m/s)
Mass = ?

Homework Equations



No equations were given.

Force = Mass*Acceleration

Force = 2*(Intensity*Area)/c
= 2*Power/c

(There is twice the force because it is a totally reflected wave)

The Attempt at a Solution



Force = 2*(Intensity*Area)/c
= 2*Power/c
= 2*(106*cos(30) W)/(3*10^8 m/s)
= 6.12*10^-7 N

Force = Mass*Acceleration
Mass = Force/Acceleration
= (6.12*10^-7 N)/[(0 m/s-1 m/s)/(0.015 s)]
= 9.18*10^-9 Kg


It all seems too simple, so I would really appreciate a good review.
 
It is as simple as that. You can check your calculations with WolframAlpha or similar tools.
The place where you add the angle is a bit strange - it influences the momentum transfer, and not the area. The result is the same, however.
 
Thanks mfb.

Would this be the correct way to account for the angle of incidence?

Force = 2*(Intensity*Area)/c
= 2*Power/c
= 2*(106 W)/(3*10^8 m/s)
= 7.07*10^-7 N

Force = Mass*Acceleration
Mass = Force/Acceleration
= (7.07*10^-7*cos(30) N)/[(0 m/s-1 m/s)/(0.015 s)]
= 9.18*10^-9 Kg
 
I would change Force = 2*Power/c to Force = 2*cos(alpha)*Power/c. This way, it is clear where the angle comes from.
 

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