Explanation Given: Mass of electron, m e = 9.1 × 10 − 31 kg Charge of the electron, e = 1.6 × 10 − 19 C Formula used: The relation between potential energy and potential difference is as follows U = q Δ V Here, U is the potential energy q is the charge of electron Δ V is the potential difference The kinetic energy of the electron is calculated as K E = 1 2 m e v 2 Here, m e is the mass of electron v is the velocity of the electron The relativistic correction factor gamma is given as γ = 1 1 − ( v 2 c 2 ) Calculation: Let the potential difference applied by the electron microscope is 20 kV Calculate the potential energy of the electron U = q Δ V Plugging the value in the above equation U = − 1.6 × 10 − 19 × ( 20 × 1000 ) = − 3.2 × 10 − 15 J According to the energy conservation, all the potential energy is converted in to the kinetic energy K E initial − K E final = U 1 2 m e v initial 2 − 1 2 m e v final 2 = U Plugging the value in the above equation 1 2 × 9

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Chapter 25, Problem 23QAP

To determine

The relativistic correction factor gamma for an electron

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Chapter 25, Problem 22QAP

Chapter 25, Problem 24QAP

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Earth's neighboring galaxy, the Andromeda Galaxy, is a distance of 2.54×107 light-years from Earth. If the lifetime of a human is taken to be 70.0 years, a spaceship would need to achieve some minimum speed ?min to deliver a living human being to this galaxy. How close to the speed of light would this minimum speed be? Express your answer as the difference between ?min and the speed of light ?. ?−?min= m/s

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