Who first explained collision b/w a photon & a free electron, Physics

The collision between a photon and a free electron was first explained by which of the following scientists?

a) Einstein

b) Heisenberg

c) Compton

d) Bohr

Ans:

The collision in between a photon and a free electron was first described by Compton.

Posted Date: 5/20/2013 7:53:35 AM | Location : United States







Related Discussions:- Who first explained collision b/w a photon & a free electron, Assignment Help, Ask Question on Who first explained collision b/w a photon & a free electron, Get Answer, Expert's Help, Who first explained collision b/w a photon & a free electron Discussions

Write discussion on Who first explained collision b/w a photon & a free electron
Your posts are moderated
Related Questions
Three similar coils, each having a resistance of 8 and an inductive reactance of 8 are connected (a) in star and (b) in delta, across a 415V, 3-phase supply. Measure for


Determine the change in Entropy accompanying the isothermal expansion of 5 moles of an ideal gas to 6 times to its initial volume at 330 k. Differentiate between Helmholtz's and

Corkscrew Rule: Knowing the direction of the current, it is possible to determine the direction of the magnetic field using Maxwell's Corkscrew rule, usually abbreviated to the

I need 4 numerical question about mobility

Briefly explain the equations describing under-damped, over damped and critically damped one-dimensional harmonic oscillator?

An infinitely long wire carries a current of three amps. The magnetic field outside the wire: a) Points radially away from the wire b) Points radially inward c) Circ

Explain Antenna. Write a short note or Antenna. Name two parts of antenna.

The maximum and minimum magnitude of the resultant of two forces are 16 N and 4N.Measure t he magnitude of individual force. Let the two vector be a and b then maxim resultant

Q. How shall you measure wavelength of light used in Newton's ring experiment? Derive the formula used.   Measurement of Wavelength of Monochromatic Light using Newton’s Ri