Consider the centripetal force on the orbiting electron of the classical Bohr model illustrated in Fig. 4.3. Consider both a situation with and without a magnetic field present and show that when the field is present and directed upwards (perpendicular to the orbital plane), the electron speeds up by Av peB/2m, and that the change in its angular velocity then equals the Larmor frequency given in Eq. (4.9). As a follow-up to this, determine how large a magnetic field is needed to cause a 1% change in the orbital speed.

Consider the centripetal force on the orbiting electron of the classical Bohr model illustrated in Fig. 4.3. Consider both a situation with and without a magnetic field present and show that when the field is present and directed upwards (perpendicular to the orbital plane), the electron speeds up by Av peB/2m, and that the change in its angular velocity then equals the Larmor frequency given in Eq. (4.9). As a follow-up to this, determine how large a magnetic field is needed to cause a 1% change in the orbital speed.

University Physics Volume 3

17th Edition

ISBN:9781938168185

Author:William Moebs, Jeff Sanny

Publisher:William Moebs, Jeff Sanny

Chapter7: Quantum Mechanics

Section: Chapter Questions

Problem 7.4CYU: Check Your Understanding A sodium atom nukes a transition from the first excited state the wound...

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