PHYSICS
PHYSICS
5th Edition
ISBN: 2818440038631
Author: GIAMBATTISTA
Publisher: MCG
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Chapter 29, Problem 93P

(a)

To determine

The speed of the α particle with kinetic energy of 4.17 MeV.

(a)

Expert Solution
Check Mark

Answer to Problem 93P

The speed of the α particle with kinetic energy of 4.17 MeV is 1.40×107 m/s.

Explanation of Solution

238U undergoes radioactive decay and produces an α particle with kinetic energy of K=4.17 MeV. The atomic mass of an α particle is approximately 4.00 u.

Write the formula for kinetic energy

    K=12mv2 (I)

Here, K is the kinetic energy, m is the mass of the particle and v is the velocity of the particle.

Conclusion:

Substitute 4.00 u for m and 4.17 MeV for K in equation (I) to find the value of v. [Note: 1 u=1.66×1027 kg and 1 eV=1.602×1019 J]

v=2K/mv=2×4.17×106 eV/4.00 uv=2×4.17×106 eV×1.602×1019 J/eV4.00 u×1.66×1027 kg/uv=1.40×107 m/s

Thus, the speed of the α particle with kinetic energy of 4.17 MeV is 1.40×107 m/s.

(b)

To determine

The electric field that would allow the α particle to pass through the velocity selector undeflected.

(b)

Expert Solution
Check Mark

Answer to Problem 93P

The electric field that would allow the α particle to pass through the velocity selector undeflected is 4.3×106 V/m.

Explanation of Solution

The magnet produces a magnetic field of B=0.30 T and the speed of the α particle is v=1.40×107 m/s. To pass through the velocity selector undeflected the electric and magnetic force should be equal, so the net force on the α particle is zero.

Write the formula for magnetic force

    FM=qvB (II)

Here, FM is the magnetic force, q is the charge, v is the velocity and B is the magnetic field.

Write the formula for electric force

    FE=qE                                                                                            (III)

Here, FE is the electric force, E is the electric field.

Conclusion:

Equating equation (I) and (II) to solve for E

FM=qvB=FE=qEqvB=qEE=Bv

Substitute 1.40×107 m/s for v and 0.30 T for B in the above equation to solve for E

E=0.30 T×1.42×107 m/sE=4.3×106 V/m

Thus, The electric field that would allow the α particle to pass through the velocity selector undeflected is 4.3×106 V/m.

(c)

To determine

The radius of the trajectory of an α particle in a 0.30T field.

(c)

Expert Solution
Check Mark

Answer to Problem 93P

The radius of the trajectory of an α particle in a 0.30T field is 98 cm.

Explanation of Solution

The magnet produces a magnetic field of B=0.30 T and the speed of the α particle is v=1.40×107 m/s. The atomic mass of an α particle is approximately 4.00 u.

Write the formula for force [Newton’s second law]

    F=ma (IV)

Here, F is the force and a is the acceleration of the particle.

Conclusion:

Equating equation (II) and (IV) to solve for r

F=qvB=maqvB=mv2rr=mvBq

Substitute 1.40×107 m/s for v, 4.00 u for m and 0.30 T for B in the above equation to solve for r

r=4.00 u×1.40×107 m/s0.30 Tr=4.00 u×1.66×1027 kg/u×1.40×107 m/s0.30 T×1.602×1019 Cr=98 cm

Thus, the radius of the trajectory of an α particle in a 0.30T field is 98 cm.

(d)

To determine

Why only the charge-to mass ratio of a particle can be determined using velocity selector, but not the individual values of q and m.

(d)

Expert Solution
Check Mark

Answer to Problem 93P

As both the mass and the charge of the particle affects the radius of trajectory and the values of v,B and r can only be measured in this experiment. Hence, only the charge-to mass ratio of a particle can be determined using velocity selector, but not the individual values of q and m.

Explanation of Solution

Equating equation (II) and (IV) to find the charge-to-mass ratio

F=qvB=maqvB=mv2rqm=vBr

Here, as both the mass and the charge of the particle affects the radius of trajectory and the values of v,B and r can only be measured in this experiment. Hence, only the charge-to mass ratio of a particle can be determined using velocity selector, but not the individual values of q and m.

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Chapter 29 Solutions

PHYSICS

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