Answer to Question #110905 in Atomic and Nuclear Physics for Abhisek Patra

Question #110905

A photon of wavelength 6000nm scatters from an electron at rest. The electron recoils with an energy of 60Kev . Calculate the energy of scattered photon and the angle through which it is scattered.

Expert's answer

Energy before scattering:

"E_{\\gamma_1}=\\frac{hc}{\\lambda_{\\gamma_1}}=3.31\\cdot10^{-20}\\text{ J, or 0.207 eV}."

According to law of conservation of energy:

"E_{\\gamma1}=E_{\\gamma2}+Te.\\\\\n0.207=E_{\\gamma2}+60\\cdot10^3,\\\\\nE_{\\gamma2}=0.207-60000<0."

This is a bit impossible and, therefore, we cannot calculate the angle of scattering.

However, assume that the wavelength of the photon is 6 pm:

"E_{\\gamma_1}=\\frac{hc}{\\lambda_{\\gamma_1}e}=206.78\\text{ keV}.\\\\\n\\space\\\\\nE_{\\gamma1}=E_{\\gamma2}+Te.\\\\\n206.78=E_{\\gamma2}+60,\\\\\nE_{\\gamma2}=206.78-60=146.78\\text{ keV}."

The wavelength after scattering will be

"\\lambda_{\\gamma2}=\\frac{hc}{E_{\\gamma2}}=8.40\\text{ pm}."

The angle through which it is scattered:

"\\lambda_{\\gamma2}-\\lambda_{\\gamma1}=\\frac{hc}{m_ec^2}(1-\\text{cos}\\theta),\\\\\n\\space\\\\\n\\theta=\\text{arccos}\\bigg[1-\\frac{m_ec}{h}(\\lambda_{\\gamma2}-\\lambda_{\\gamma1})\\bigg]=89.3^\\circ."

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Answer to Question #110905 in Atomic and Nuclear Physics for Abhisek Patra

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