Light of wavelength 400 nm and intensity 10-2 W/m2 is incident on a detector surface. The...

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.

1. A beam of unpolarized light with an intensity of 110 W/m2 is incident on a...

1. A beam of unpolarized light with an intensity of 110 W/m2 is incident on a stack of four polarizing sheets that are lined up so that the characteristic direction of each is rotated by 30◦ clockwise with respect to the preceding sheet. What is the intensity of the light passing through the last sheet? 2. A solenoid with 400 turns per meter carries a current of 0.40 A. There is a 10-turn coil in the center of the solenoid,...

Unpolarized light of intensity 400 W/m2 is normally incident on a system of two polarizers. The...

Unpolarized light of intensity 400 W/m2 is normally incident on a system of two polarizers. The first polarizer's transmission axis is oriented vertically and the second polarizer's transmission axis makes an angle θ with respect to the vertical. The light emerging from the system has an intensity of 150 W/m2. What is the angle θ of the second polarizer. A. 41 degrees B. 52 degrees C. 30 degrees D. 68 degrees

(a) A light beam of wavelength 7.0 x 10-7 m and intensity 435 W/m2 shines on...

(a) A light beam of wavelength 7.0 x 10-7 m and intensity 435 W/m2 shines on a target of area 3.8 m2. How many photons per second are striking the target? Answer: ______________.___x 10 photons/sec (b) A particle of matter is moving with a kinetic energy of 10 eV. Its de Broglie wavelength is 7.3 x 10-10 m. What is the mass of the particle? Answer: _________________.___x 10 kg (c) Two spaceships are traveling with a relative velocity of 2.9...

Unpolarized light with an intensity of 510 W / m2 is incident on a polarizer with...

Unpolarized light with an intensity of 510 W / m2 is incident on a polarizer with an unknown axis. The light then passes through a second polarizer with has an axis which makes an angle of 83.0° with the vertical. After the light passes through the second polarizer, its intensity has dropped to 164 W / m2. What is the angle between the axes of the polarizers? (Please provide an explanation along with use of equations. Thank you.)

A light beam of wavelength 5.6 * 10^-7 m, and intensity 53 W/m^2 shines on a...

A light beam of wavelength 5.6 * 10^-7 m, and intensity 53 W/m^2 shines on a target of area 3.6 m^2. How many photons per second are striking the target?

Unpolarized light with an intensity of 680 W / m2 is incident on a polarizer with...

Unpolarized light with an intensity of 680 W / m2 is incident on a polarizer with an unknown axis. The light then passes through a second polarizer with has an axis which makes an angle of 79.5° with the vertical. After the light passes through the second polarizer, its intensity has dropped to 196 W / m2. 1) What is the angle between the axes of the polarizers in degrees? 2) What angle from the vertical is the first polarizer's...

The threshold of dark-adapted (scotopic) vision is 3.3 ? 10?11 W/m2 at a central wavelength of...

The threshold of dark-adapted (scotopic) vision is 3.3 ? 10?11 W/m2 at a central wavelength of 500 nm. If light with this intensity and wavelength enters the eye when the pupil is open to its maximum diameter of 8.3 mm, how many photons per second enter the eye? photons/s

When light of wavelength 300.0 nm is incident on potassium, the emitted electrons have maximum kinetic...

When light of wavelength 300.0 nm is incident on potassium, the emitted electrons have maximum kinetic energy of 2.03 eV. A) Calculate the work function for potassium. B) Calculate the stopping potential if the incident light, instead, has a wavelength of 400.0 nm. C) Now, assume that the incident light has an intensity of 0.01 W/m^2, and that the potassium atom has an area of 0.01 nm^2. Using classical physics, estimate the time required for an energy equal to the...

Please answer quickly Initially, unpolarized light with an intensity of 42.0 W/m2 is normally incident on...

Please answer quickly Initially, unpolarized light with an intensity of 42.0 W/m2 is normally incident on three polarizers consecutively. Polarizer A is rotated - 20' with respect to vertical, Polarizer B is rotated +10° with respect to horizontal and polarizer C is rotated +35" with respect to vertical. What is the intensity of the light after passing through all three polarizers? A 11.4 W/m2 B 12.1 W/m2 C 24.1 W/m2 D 12.9 W/m2 E 106 W/m2