A monochromatic beam of light of wavelenght lambda incident normally on a surface produces a pressure...

A light beam (consisting of wavelengths from 3,000 A to 10,000 A ) is incident normally...

A light beam (consisting of wavelengths from 3,000 A to 10,000 A ) is incident normally on a thin oil film of thickness 400 nm.If refractive index of film is 3/2 the wavelength strongly reflected is.....

Q10: A narrow beam of 106 ?ℎ????? ?-1 in normally incident on 8-mm iron sheet. The...

Q10: A narrow beam of 106 ?ℎ????? ?-1 in normally incident on 8-mm iron sheet. The beam consists of equal numbers of 400-KeV photons and 1-MeV photons. mass atten coeffs of Fe: (400KeV = 0.092, 1MeV = 0.06) energy abs coeffs: (400KeV = 0.03, 1MeV = 0.027), use density 7.86 g/cm^3 (a) Calculate the number of ?ℎ????? ?-1 of each energy that are transmitted without interaction through the sheet. (b) How much energy is removed from the narrow beam per...

1. An ultraviolet light with wavelength 380 nm and intensity 1.00 W/m2 falling on 1.00 cm2...

1. An ultraviolet light with wavelength 380 nm and intensity 1.00 W/m2 falling on 1.00 cm2 area of Lithium surface. If 0.9 % of the incident photons produces photoelectrons, how many photons emitted per second. 2.Calculate maximum kinetic energy of ejected photoelectron when 320 nm light falls on Silver surface.

Part 1. Monochromatic light from a helium-neon laser (wavelength 613.1 nm) is incident normally on a...

Part 1. Monochromatic light from a helium-neon laser (wavelength 613.1 nm) is incident normally on a diffraction grating containing 4186 lines/cm. Find the angle at which the first-order maximum can be observed. Answer in units of ? . The answer is NOT 17.18 degrees, nor is it 17.1771 degrees. Part 2. Calculate the angle at which the second-order maximum can be observed. Answer in units of ? .

Photoelectrons are ejected when monochromatic light shines on a sodium surface. In order to obtain the...

Photoelectrons are ejected when monochromatic light shines on a sodium surface. In order to obtain the maximum increase in the number of electrons ejected per second, the experimenter needs to a. increase the frequency of the light. b. increase the intensity of the light. c. increase the area illuminated by the light. d. do all of the above. e. do only (b) and (c) above. ** Brief Explanation Please.

physics: optics q1: A 180 ?? laser produces a nearly parallel beam 20 ??2 in cross-sectional...

physics: optics q1: A 180 ?? laser produces a nearly parallel beam 20 ??2 in cross-sectional area at a wavelength of 710 ??. Determine the amplitude of the electric field in the beam, assuming the wavefronts are homogeneous and light travels in vacuum. q2: a) A light beam with an irradiance of 4 × 106 ?/?2 impinges normally on a surface that reflects 65.0% and absorbs 35.0%. Calculate the resulting radiation pressure on the surface. b)Compute the momentum of a...

A vertically polarized beam of light, having intensity 100 W/m^2 , is incident on a stack...

A vertically polarized beam of light, having intensity 100 W/m^2 , is incident on a stack of identical linear polarizers that are arranged one behind the other so that the transmission axis of the first is vertical, the second at 45, the third at 90 with the vertical.1. Find the intensity of the emerging beam, which will be oscillating in a direction perpendicular to the incident one. 2. If we would like to rotate a polarized beam of light through...

1) At noon on a clear day, sunlight reaches the earth's surface at Madison, Wisconsin, with...

1) At noon on a clear day, sunlight reaches the earth's surface at Madison, Wisconsin, with an average intensity of approximately 4.00 kJ·s−1·m−2. If the sunlight consists of photons with an average wavelength of 510.0 nm, how many photons strike a 9.60 cm2 area per second? 2) A watt is a unit of energy per unit time, and one watt (W) is equal to one joule per second (J⋅s−1). A 40.0 W incandescent lightbulb produces about 9.00% of its energy...

The mercury lamp produces about 30 W of outgoing light, and the fraction striking the photodiode...

The mercury lamp produces about 30 W of outgoing light, and the fraction striking the photodiode is about 0.05% in the Violet2 line (violet2 = 404.6 nm for wavelength). The capacitance of the capacitor inside the detector is 10 uF, and it takes about one second to charge it to approximately 2 V. By using the formula Energy/time = Nphhf, where Nph is the number of photons per second, find the rate at which photons strike the photodetector when the...

You have a 1 W light bulb in your lab. It puts out light of only...

You have a 1 W light bulb in your lab. It puts out light of only 1 frequency. The wavelength of this light is 500nm. you set up a detector with a surface area of 1 square cetimeter facing the light source at a distance of 100m. 1.) find the number of photons hitting the detector every second. 2.) what is the maximum E field of the E M wave hitting the detector? Answer in mN/C. 3.) what is the...