(a) Explanation Given info: Atomic number ( Z α ) of alpha particle is 2. Mass of alpha particle ( m α ) is 6.64 × 10 − 27 kg . Atomic number ( Z G ) of gold is 79. The distance of closest approach ( r ) is 3.2 × 10 − 14 m At the distance of closest approach, K E = P E (1) KE is the kinetic energy. PE is the potential energy. Formula to calculate the kinetic energy is, K E = 1 2 m α v 2 (2) v is the speed of alpha particle. Formula to calculate the potential energy is, P E = k ( Z α e ) ( Z G e ) r (3) e is the unit of charge. k is the coulomb constant. Substitute Equations (2) and (3) in (1) and re-arrange to get v . v = 2 k Z α Z G e 2 m α r Substitute 2 for Z α , 79 for Z G , 1.6 × 10 − 19 C for e , 8 (b) To determine The energy of alpha particle.

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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 29, Problem 9P

(a)

To determine

The speed of alpha particle.

(b)

To determine

The energy of alpha particle.

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Chapter 29, Problem 8P

Chapter 29, Problem 10P

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COLLEGE PHYSICS,V.2

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