Area of a surface is `1256 m^(2)`. If `25 Js^(-1)` radiant energy is incident on it at each second and absorbed completely, then find
Wave intensity

Area of a surface is 1256 m^(2) . If 25 Js^(-1) radiant energy is incident on it at each second and absorbed completely, then find E_(rms)

Area of a surface is 1256 m^(2) . If 25 Js^(-1) radiant energy is incident on it at each second and absorbed completely, then find B_(rms)

Area of a surface is 1256 m^(2) . If 25 Js^(-1) radiant energy is incident on it at each second and absorbed completely, then find Magnitude of energy density

The energy flux of sunlight reaching the surface of the earth is 1.388 xx 10^(3) W//m^(2) . How many photons (nearly) per square metre are incident on the Earth per second? Assume that the photons in the sunlight have an average wavelength of 550 nm.

The energy flux of sunlight reaching the surface of the earth is 1.388xx10^(3)W//m^(2) .How many photons (nearly) per square meter are incident on the Earth per second?Assume that the photons in the sunlight have an average wavelength of 550 nm.

A narrow monochromatic beam of light of intensity I is incident on a galss plate as shown in figure. Another identical glass plate is kept close to the first one & parallel to it. Each glass plate reflects 25% of the light incident on it and transmits the remaining find the ratio of the minimum & the maximum intensities in the interference pattern formed by the two beams obtained after one reflection at each plate.

A point source is emitting 0.2 W of ultravio- let radiation at a wavelength of lambda = 2537 Å . This source is placed at a distance of 1.0 m from the cathode of a photoelectric cell. The cathode is made of potassium (Work function = 2.22 eV ) and has a surface area of 4 cm^(2) . (a) According to classical theory, what time of exposure to the radiation shall be required for a potassium atom to accumulate sufficient energy to eject a photoelectron. Assume that radius of each potassium atom is 2 Å and it absorbs all energy incident on it. (b) Photon flux is defined as number of light photons reaching the cathode in unit time. Calculate the photon flux. (c) Photo efficiency is defined as probability of a photon being successful in knocking out an electron from the metal surface. Calculate the saturation photocurrent in the cell assuming a photo efficiency of 0.1. (d) Find the cut – off potential difference for the cell.

Monochromatic light of wavelength 3000 Å is incident normally on a surface of area 4 cm^(2) If the intensity of light is 150 (m W)/(m^(2)) , the number of photon being incident on this surface in one second is ……

11xx10^(11) photons are incident on a surface in 100s.These photons correspond to a wavelength of 10Å .If the surface area of the given surface is 0.01 m^(2) ,the intensity of given radiations is ………(velocity of light is 3xx10^(8)ms^(-1),h=6.625x10^(-34)JS)

Light of intensity 10^(-5) W m^(-2) falls on a sodium photo-cell of surface area 2 cm^(2) . Assuming that the top 5 layers of sodium absorb the incident energy, estimate time required for photoelectric emission in the wave-picture of radiation. The work function for the metal is given to be about 2 eV. What is the implication of your answer?