Explanation Given i. The α-particle (K αi = 5 MeV) is headed directly towards the Au target nucleus. ii. The Au nucleus is initially at rest. iii. The α-particle has an elastic collision with the Au nucleus. iv. From Appendix F and G, we have charge Z (α-particle) = 2, A(α-particle) = 4, and Z (Au) = 79, A(Au) = 179 1) Concept We refer to Chapter 9 of the textbook, and use the formula derived for conservation of energy and conservation of linear momentum. These equations are useful for an energetic particle having an elastic collision with a stationary target. 2) Equations If v αf is the final velocity of the α-particle, then from eqn 9.67 and eqn 9.68 of the textbook, we can write v α f = m α - m A u m α + m A u x v α i And v A u f = 2 m α m α + m A u x v α i Observe that v Auf is always positive (the initially stationary target will always move forward). On the other hand v α f may be of either sign (the projectile m 1 moves forward if m 1 > m 2 but rebounds if m 1 < m 2 ). 3) Calculations (a) The kinetic energy of the recoiling nucleus of Au, will be K Auf = 1 2 m A u v A u 2 = 1 2 m A u x ( 2 m α m α + m A u ) 2 v α i 2 Rearranging, we get K Auf = K αi x 4 m A u m α ( m A u + m α ) 2 Substituting, we get K Auf = (5MeV) x 4 x 197 u ( 4 u ) ( 197 u + 4 u ) 2 = 0

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Author: David Halliday, Robert Resnick, Jearl Walker

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Rutherford's scattering experiment

Rutherford’s scattering experiment is also known as the gold foil experiment. This experiment disproved the plum pudding model of J.J. Thomson. In a gold foil experiment, high-energy alpha particles are made to strike a thin gold foil. The scattered alph…

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Chapter 42, Problem 5P

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To calculate:

(a) the kinetic energy of the recoiling gold nucleus.

(b) the kinetic energy of the rebounding α-particle.

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Chapter 42, Problem 4P

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(a) the kinetic energy of the recoiling gold nucleus. (b) the kinetic energy of the rebounding α-particle.

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To calculate: (a) the kinetic energy of the recoiling gold nucleus. (b) the kinetic energy of the rebounding α-particle.

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Chapter 42 Solutions

To calculate:

(a) the kinetic energy of the recoiling gold nucleus.

(b) the kinetic energy of the rebounding α-particle.