A laser emits light at a wavelength of 1 = 525.0 nm . The total average power emitted = 75.0 mW .The light is focused down to match the size of a small round perfectly is Pav absorbing particle with radius r = 2.22 um . All of the light is coming from one direction. What is the light intensity near the surface of the particle, I ? What force is applied to the particle by radiation pressure, FR а. b. If the density of the particle is p=8.00×10°kg /m² ,what is the acceleration of the с. particle when the laser is turned on, a ?

icon
Related questions
Question
1.
A laser emits light at a wavelength of 1 = 525.0 nm . The total average power emitted
is P = 75.0 mW .The light is focused down to match the size of a small round perfectly
absorbing particle with radiusr=2.22 um . All of the light is coming from one direction.
What is the light intensity near the surface of the particle, I ?
What force is applied to the particle by radiation pressure, Fr
а.
b.
If the density of the particle is p=8.00×10°kg / m , what is the acceleration of the
С.
particle when the laser is turned on, a ?
Transcribed Image Text:1. A laser emits light at a wavelength of 1 = 525.0 nm . The total average power emitted is P = 75.0 mW .The light is focused down to match the size of a small round perfectly absorbing particle with radiusr=2.22 um . All of the light is coming from one direction. What is the light intensity near the surface of the particle, I ? What force is applied to the particle by radiation pressure, Fr а. b. If the density of the particle is p=8.00×10°kg / m , what is the acceleration of the С. particle when the laser is turned on, a ?
Expert Solution
trending now

Trending now

This is a popular solution!

steps

Step by step

Solved in 5 steps

Blurred answer
Similar questions