Light of two different frequencies whose...

Light of two different frequencies whose photons have energies 1 eV and 2.5 eV respectively illuminate a metallic surface whose work function is 0.5 eV successively. The ratio of maximum speed of emitted elections will be

`1:4`

`1:2`

`1:1`

`1:5`

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

PART TEST 5
RESONANCE ENGLISH|Exercise Exercise|30 Videos
RIGID BODY DYNAMICS
RESONANCE ENGLISH|Exercise Exercise|53 Videos

Similar Questions

Explore conceptually related problems

Light of two different frequencies whose photons have energies 1eV and 2.5 eV respectively illuminate a metallic surface whose work function is 0.5 eV successively. Ratio of maximum kinetic energy of emitted electrons will be:

Lights of two different frequencies whose photons have energies 1 and 2.5 eV, respectively, successively illuminate a metal whose work function is 0.5 eV. The ratio of the maximum speeds of the emitted electrons

Radiations of two different frequencies whose photon energies are 3.4 eV and 8.2 eV successively illuminate a metal surface whose work function is 1.8eV. The ratio of the maximum speeds of the emitted electrons will be

Light of wavelength 3000Å is incident on a metal surface whose work function is 1 eV. The maximum velocity of emitted photoelectron will be

Photons of energy 6 eV are incident on a metal surface whose work function is 4 eV . The minimum kinetic energy of the emitted photo - electrons will be

When photon of energy 3.8 eV falls on metallic suface of work function 2.8 eV , then the kinetic energy of emitted electrons are

Light of wavelength 2000 Å falls on a metallic surface whose work function is 4.21 eV. Calculate the stopping potential

Radiation two photons having energies twice and five times the work function of a metal are incident successively on the metal surface. The ratio of the maximum velocity of photoelectrons emitted in the two cases will be

A photon of energy 4 eV is incident on a metal surface whose work function is 2 eV . The minimum reverse potential to be applied for stopping the emission of electrons is

RESONANCE ENGLISH-PART TEST 6-Exercise

The graph between photo electric current and cathode potential when th...
Text Solution
|
For a pure semiconductor energy band shown at 0K choose correct option...
Text Solution
|
Photo electric effect can be explained only by assuming that light A...
Text Solution
|
Light of two different frequencies whose photons have energies 1 eV an...
Text Solution
|
In an interference pattern the (n+4)^(th) blue bright fringe and n^(th...
Text Solution
|
A particle of mass m is projected form ground with velocity u making a...
Text Solution
|
When a metallic surface is illuminated with monochromatic light of wav...
Text Solution
|
Light of wavelength 400 nm is incident continuously on a caesium ball ...
Text Solution
|
The Rutherford alpha-particle experiment shown that most of the alpha-...
Text Solution
|
Which one of the following graphs in figure shows the variation of pho...
Text Solution
|
Two electrons starting from rest are accelerated by equal potential di...
Text Solution
|
Let mp be the mass of a proton , mn the mass of a neutron, M1 the mass...
Text Solution
|
In the photoelectric experiment, if we use a monochromatic light, the ...
Text Solution
|
In a photoelectric effect experiment, stopping potential changes by 30...
Text Solution
|
The photon radiated from hydrogen corresponding to 2^(nd) line of Lyma...
Text Solution
|
An electron of mass m when accelerated through a potential difference ...
Text Solution
|
A photon of energy 12.09 eV is absorbed by an electron in ground state...
Text Solution
|
What percentage increase in wavelength leads to 75% loss of photon ene...
Text Solution
|
Statement 1: Though light of a single frequency (monochromatic light) ...
Text Solution
|
Staements I: .zX^A undergoes 2 alpha-decays, 2 beta-decays (negative b...
Text Solution
|