(a) Explanation Given Info: The electron is moving in a uniform 0.25 T magnetic field and the velocity components parallel and perpendicular to magnetic field is 3.1 Mm/s . Explanation: Write the expression for the radius of the circular path traced by an electron in a magnetic field r = m v q B (1) Here, m is the mass of electron v is the velocity of electron q is the charge B is the magnetic field Substitute 9.11 × 10 − 31 kg for m and 3.1 Mm/s for v and 0.25 T for B and 1.6 × 10 − 19 C for q in equation (1) r = ( 9.11 × 10 31 kg ) ( 3 (b) To determine The distance moved by the electron along the field direction in the time it takes to complete a full orbit about the field.

4th Edition

ISBN: 9780134988566

Author: Wolfson, Richard

Publisher: Pearson Education,

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Magnetic Force

A magnetic force arises when a charged particle or a current-carrying conductor is placed in a magnetic field. It is created because of the movement of the charged particles.

Question

Chapter 26, Problem 53P

(a)

To determine

The radius of the electron’s spiral path when it is moving in a circular path.

(b)

To determine

The distance moved by the electron along the field direction in the time it takes to complete a full orbit about the field.

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Chapter 26, Problem 52P

Chapter 26, Problem 54P

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Chapter 26 Solutions

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The radius of the electron’s spiral path when it is moving in a circular path.

Solution Summary: The author calculates the radius of the electron's spiral path when it is moving in a circular path.

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The radius of the electron’s spiral path when it is moving in a circular path.

The distance moved by the electron along the field direction in the time it takes to complete a full orbit about the field.

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Chapter 26 Solutions