- #1
xinlan
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Homework Statement
How to square this : (Pi+m.c-Pf)^2 ?
Homework Equations
The Attempt at a Solution
I did : Pi^2 + m^2*c^2 + Pf^2...
but then I don't know the rest of the completion..
please help me..
Thank you in advance..
Good. So just do the squaring as instructed:xinlan said:for part A = Ei = pi.c+mc^2
part B = Ef = pf.c + square root of pe^2*c^2 + m^2*c^4
part C = square root of pe^2 + m^2*c^2 = pi+m*c-pf
No. In part E, you write the conservation of momentum vector equation. In part F, you'll square that equation. In part G, you'll use the results to eliminate p_e in the equation from part D. (Just follow the instructions, step by step.)xinlan said:does it mean that the answer that I got from part D needs to be rewrited as a vector equation ?
Compton Scattering Squaring is a physical phenomenon in which a photon collides with an electron, resulting in a scatter and a change in the wavelength of the photon.
Compton Scattering Squaring occurs when a photon interacts with an electron in a material. The photon transfers some of its energy to the electron, causing it to recoil and resulting in a change in the photon's wavelength.
Compton Scattering Squaring is important in understanding the behavior of particles and electromagnetic radiation. It has also been used in various fields such as medical imaging and material science.
The formula for Compton Scattering Squaring is Δλ = h/mc(1-cosθ), where Δλ is the change in the wavelength of the scattered photon, h is Planck's constant, m is the mass of the electron, c is the speed of light, and θ is the angle of scattering.
The Compton Effect is the observation of Compton Scattering Squaring in a laboratory setting. It is a result of the interaction between photons and electrons, which was discovered by Arthur Compton in 1923.