A beam of light has three wavelengths 40...

A beam of light has three wavelengths `4000 Å, 5000 Å, 6000Å` with a total intensity `3 xx 10^(-3) W//m^(2)` equally distributed amongst the three wavelenth. The beam falls normally on an area `2 cm^(2)` of clean metallic surface of work function `2.4 eV`. Calculate photo current. (Assume each energetically suitable photon emits one electron)

Text Solution

Verified by Experts

The correct Answer is:

`0.14 muÅ`

`(hc)/(lambda_(1)) = (12400)/(4000) eV = 3.1 eV`
`(hc)/(lambda_(2)) = (12400)/(5000) eV = 2.48 eV`
`(hc)/(lambda_(2)) = (12400)/(6000) eV = 2.06 eV`
`:.` Light having wavelength `6000 7` will not be able to eject electrons.
`:.` Photo-current `= (overset(.)(n)_(1) + overset(.)(n)_(2))e`
where `overset(.)(n)_(1)=` no. of photons of light incident having wavelength `4000Å`
`overset(.)(n)_(2)` no. of photons of light incident having wavelength `5000 Å`. Here
`overset(.)(n)_(1) ((hc)/(lambda_(1))) = overset(.)(n)_(2) ((hc)/(lambda_(2))) = overset(.)(n)_(3) ((hc)/(lambda_(3))) = (I_(0))/(3) = (3 xx 10^(-3))/(3) = 10^(3)`
Area intercepted `= 2cm^(2) = 2 xx 10^(-4)m^(2)`
`:.` Photo-current `= (overset(.)(n)_(1) + overset(.)(n)_(2))e`
`= ((10^(-3) xx 2 xx 10^(-4))(5000 + 4000) xx 10^(-10) xx 1.6 xx 10^(-19))/(6.63 xx 10^(-34) xx 3 xx 10^(8))`
`= 0.144 muA`

Topper's Solved these Questions

SIMPLE HARMONIC MOTION
ALLEN|Exercise Exercise-05(B)|46 Videos
SIMPLE HARMONIC MOTION
ALLEN|Exercise MCQ s|8 Videos
SIMPLE HARMONIC MOTION
ALLEN|Exercise Exercise - 04[A]|25 Videos
RACE
ALLEN|Exercise Basic Maths (Wave Motion & Dopplers Effect) (Stationary waves & doppler effect, beats)|25 Videos
TEST PAPER
ALLEN|Exercise PHYSICS|4 Videos

Similar Questions

Explore conceptually related problems

A beam of light has three wavelengths 4144 Å , and 6216 Å with a total instensity of 3.6 xx 10^(-3) Wm^(-2) equally distributed amongst the three wavelengths. The beam falls normally on an area 1.0 cm^2 of a clean metallic surface of work function 2.3 eV. Assume that there is no loss of light by reflection number of photoelectrons liberated in two seconds.

A beam of light has two wavelengths 4,972Å and 6,216Å with a total intensity of 3.6xx10^(-3) W m^(-2) equally distributed among the two wavelengths . The beam falls normally on an area of 1 cm^2 of clean metallic surface of work function 2.3 eV . Assume that there is no loss of light by reflection and that each capable photon ejects one electron. The number of photoelectrons liberated in 2 s is approximately

A beam of light has three lambda, 4144 "Å", 4972 "Å" "and"6216 "Å" with a total intensity of 3.6 xx10^(-3) Wm^(-2) equally distributed amongst the three lambda. The beam falls normally on an area 1.0 cm^(2) of a cleam metallic surface of work function 2.3 eV. Assume that there is no loss of light by reflection etc. Calculate the no. of photoelectrons emitted in 2 sec, in scientific notation, x xx 10^(y) find the value of y.

A beam of light consists of four wavelength 4000Å , 4800 A, 6000 A and 7000 Å , each of intensity 1.5xx10^(-3)Wm^(-2) . The beam falls normally on an area 10^(-4)m^(2) of a clean metalic surface of work function 1.9 eV . Assuming no loss of light energy (i.e. each capable photon emits one electron) calculate the number of photoelectrons liberated per second.

A light source, emitting there wavelengths 500nm, 600nm and 700 nm, has a total power of 10^(-3) W and a beam diameter 2xx10^(-3)m . The density is distributed equally amongst the three wavelength. The beam shines normally on a metallic surface of area on 10^(-4) m^(2) and having a work function of 1.9 eV. Assuming that each photon liberates an electron, calculate the charge emitted per unit area in one second.

A beam of light has an power of 144 W equally distributed among three wavelengths of 4100 Å , 4960 Å and 6200Å. The beam is incident at an angle of incidence of 60° on an area of 1 cm^(2) of a clean sodium surface, having a work function of 2.3 eV.Assuming that there is no loss of light by reflection and that each energetically capable photon ejects a photoelectron, find the saturation photocurrent. (Take h c//e = 12400 eVÅ )

A photon of wavelength 5000 lambda strikes a metal surface with work function 2.20 eV calculate aTHe energy of the photon in eV b. The kinetic energy of the emitted photo electron c. The velocity of the photoelectron

Light of 5,500 Å is incident on a metal of work function 2 eV . Calculate the (i) threshold wavelength (ii) maximum velocity of electrons emitted.

ALLEN-SIMPLE HARMONIC MOTION-Exercise-04 [B]

A monochromatic point source radiating wavelength 6000Å with power 2 w...
Text Solution
|
Monochromatic radiation of wavelength lambda(1) = 3000 Å falls on a ph...
Text Solution
|
A beam of light has three wavelengths 4000 Å, 5000 Å, 6000Å with a tot...
Text Solution
|
Two identical non-re,aticivistic particles move at right angle to each...
Text Solution
|
A single electron orbits around a stationary nucleus of charge + Ze wh...
Text Solution
|
A gas of identical hydrogen-like atoms has some atoms in the lowest in...
Text Solution
|
A classical model for the hydrogen atom consists of a singal electron ...
Text Solution
|
An imaginary particle has a charge equal to that of an electron and m...
Text Solution
|
The isotope of U^(238) and U^(235) occur in nature in the ratio 140:1....
Text Solution
|
A radioactive nuclide is produced at a constant rate x nuclei per seco...
Text Solution
|
A fusion reaction of the type given below .(1)^(2)D+.(1)^(2)D rarr ....
Text Solution
|
The element curium .96^248 Cm has a mean life of 10^13s. Its primary d...
Text Solution
|
A small bottle contains powered beryllium Be & gaseous radon which is ...
Text Solution
|
A body of mass m(0) is placed on a smooth horizontal surface . The mas...
Text Solution
|
A radio nuclide with disintegration constant lambda is produced in a r...
Text Solution
|
If 13.6 eV energy is required to ionized the hydrogen atom then the en...
Text Solution
|
If the binding energy of the electron in a hydrogen atom is 13.6 eV, t...
Text Solution
|
Which of the following atoms has the lowest ionization potential ?
Text Solution
|
The wavelength involved in the spectrum of deuterium (1)^(2)D are slig...
Text Solution
|
The manifestation of band structure in solids is due to
Text Solution
|