11.X-rays with a wavelength of 1, = 9.587 pm are used in a Compton scatteringexperiment (i.e. the photons are scattered by essentially free electrons).What is the energy, E , of the incident photons in eV?а.b.When the Compton scattered X-ray scatters to an angle (measured from the direction of theincident X-ray) of 0 =145.0°, what is the wavelength of the Compton scattered X-ray?When the Compton scattered X-ray scatters to an angle (measured from the direction of theincident X-ray) of 0 =145.0°, what is the change in energy for the X-ray photon in eV (orthe difference in energy between the scattered photon and the incident photon)?d.с.When the Compton scattered X-ray scatters to an angle (measured from the direction of theincident X-ray) of 0 =145.0°,what is the change in kinetic energy for the scatteredelectron in eV? Waves in general:FORMULA PAGE 1a y1-dimensional wave equation:1 a'y; here v is the speed of the wavev? ôt?Solution: f(x- vt) or f(x+vt)Harmonic or sinusoidal waves: y(x,t)= Asin(kx- ot)2лk2n= 27f; v=-Tv = f2General Constants:-34h = 6.626×10*J.s = 4.13567×10¬eV ·s ; (with recent revisions to the SI system ofunits Planck's Constant is defined to have an exact value: h= 6.62607015×10¯“J·s)–34-19hc = 1240 eV · nm; hc=1239.84eV · nm (for more accuracy); leV =1.6022×10-J= 299,792, 458 m /s (exact);-31electron mass: m, =9.1094×10' kgproton mass: m,=1.6726×10-27 kgPhotons: E = hfhc; Protons: m,c² = 938.3MEV , Electrons: m.c² = 511.0keV%3|h= 1.0546x10 34J•s = 6.5821×10-1eV ·sChapter 36. DiffractionSingle slit diffraction:Minima:a sin 0, = ma, m=1,2,3,...where a is the slit width, note: there is a maximum at0 = 0sin(a)паIntensity:I(0) = ,,a =-sin(0)maCircular aperture: First minimum: sin 0 = 1.22-Rayleigh's criterion ( 1

X-rays with a wavelength of , =9.587pm are used in a Compton scattering experiment (i.e. the photons are scattered by essentially free electrons). What is the energy, E , of the incident photons in eV? а. b. When the Compton scattered X-ray scatters to an angle (measured from the direction of the incident X-ray) of 0 =145.0° , what is the wavelength of the Compton scattered X-ray? When the Compton scattered X-ray scatters to an angle (measured from the direction of the incident X-ray) of 0 = 145.0°, what is the change in energy for the X-ray photon in eV (or the difference in energy between the scattered photon and the incident photon)? С.

X-rays with a wavelength of , =9.587pm are used in a Compton scattering experiment (i.e. the photons are scattered by essentially free electrons). What is the energy, E , of the incident photons in eV? а. b. When the Compton scattered X-ray scatters to an angle (measured from the direction of the incident X-ray) of 0 =145.0° , what is the wavelength of the Compton scattered X-ray? When the Compton scattered X-ray scatters to an angle (measured from the direction of the incident X-ray) of 0 = 145.0°, what is the change in energy for the X-ray photon in eV (or the difference in energy between the scattered photon and the incident photon)? С.

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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