Laser Waves with wavelength 633 nm have 3 Mw power. What will be the pressure applied by these waves at 3 mm^2 Cross section area.
( Given that Surface is 100% reflecting ( R =1) and Ray's fall perpendicularly to the surface)

Laser Waves with wavelength 633 nm have 3 Mw power. What will be the pressure applied...
Problem 2: A Helium-Neon laser gives a wavelength of 633 nm and has a power of 20 milliWatt. Find (a) The frequency of laser light and (b) The total number of photons emitted per second.
A typical helium-neon laser found in supermarket checkout scanners emits 633-nm-wavelength light in a 1.1-mm-diameter beam with a power of 1.0 mW . A. What is the amplitude of the oscillating electric field in the laser beam? Express your answer with the appropriate units. B. What is the amplitude of the oscillating magnetic field in the laser beam? Express your answer with the appropriate units.
A small laser emits light at power 3.11 mW and wavelength 486 nm. The laser beam is focused (narrowed) until its diameter matches the 1236 nm diameter of a sphere placed in its path. The sphere is perfectly absorbing and has density 3.00×103kg/m3. What is the beam intensity at the sphere's location? Tries 0/10 Calculate the radiation pressure on the sphere. Tries 0/10 Calculate the magnitude of the corresponding force. Tries 0/10 Calculate the magnitude of the acceleration that force...
3. A double slit experiment uses a laser with a wavelength of 633 nm and a slit separation of 120 um The fringes are observed on a screen at a distance of 100 mm. The experiment is performed in air and then repeated under water (n 1.33). a. What is the fringe spacing in air? b. What is the fringe spacing under water? c. When a thin sheet of plastic (n 1.91) is placed over one of the slits in...
2. A red laser pointer has a wavelength of 633 nm. Calculate the following: (3 pts) a. Energy of a photon from this laser pointer in b. Energy in kJ/mol photons c. Wavenumber in cm1
2. Electromagnetic waves can exert force on objects because they carry momentum. A common laser pointer has a power rating of P and a cross-sectional radius of r. a. What is the intensity, I, of the laser pointer? For simplicity, we say that the energy distribution is uniform. b. What is the radiation pressure, p, if the laser pointer is aimed directly at a perfectly reflecting surface? c. What is the force, F, the laser beam exerts on a perfectly...
Problem 5: A laser light of 10 mW power at the 1550 nm wavelength is incident to a Silicon PIN photodetector. What is the photocurrent from this silicon PIN photodetector? (a) 1.12 mA, (b) 1.10 mA, (c) 1.55 mA, (d) 1550 mA, (e) 0 mA
A laser emits light at a wavelength of 488 nm at an average power of 5.00 mW. The laser’s produces a circular beam with a diameter of 1.00 mm. This light is then passed through a double slit projecting an interference pattern on a screen 2.25 m away. a. (10 points) If the central bright fringe is 3.50 cm wide, what is the spacing between the slits?
1. (3 points) Consider a beam of light of wavelength 514.5 nm emitted by a laser. The diameter of the beam is 2.00 mm and there are 1.30 X 1018 photons emitted per second. a) Find the peak electric field for the electromagnetic wave that constitutes the beam. b) Find the peak magnetic field for the electromagnetic wave that constitutes the beam. (Hint: Recall the average intensity of electromagnetic waves. Also remember that intensity is power per unit area.)
1. I have a red laser pointer (wavelength = 600 nm) which I shine at a distant wall. If the beam out of the laser pointer has a width of 1 mm, what is the smallest spot I can make on a wall 100 m away?