Assume an electron in an atom of diamagnetic material moves in a circular path of radius 1.00 x 10-11 m. Treat the electron as a classical particle moving in a loop and calculate the magnitude of the electric field along the electron's path when a magnetic field perpendicular to the plane of the electron's orbit is increased from zero to 1.58 T in 25 ms. answer in units of V/m, please. 32.6 DiamagnetismAssume an electron in an atom of diamagnetic material moves in a circular path of radius 1.00 x 10-¹¹ m. Treat the electron as aclassical particle moving in a loop and calculate the magnitude of the electric field along the electron's path when a magnetic fieldperpendicular to the plane of the electron's orbit is increased from zero to 1.58 T in 25 ms.V/mSave for LaterSubmit Answer

To solve this problem, we can apply Faraday's law of electromagnetic induction, which states that…

Assume an electron in an atom of diamagnetic material moves in a circular path of radius 1.00 x 10-11 m. Treat the electron as a classical particle moving in a loop and calculate the magnitude of the electric field along the electron's path when a magnetic field perpendicular to the plane of the electron's orbit is increased from zero to 1.58 T in 25 ms. V/m i

Assume an electron in an atom of diamagnetic material moves in a circular path of radius 1.00 x 10-11 m. Treat the electron as a classical particle moving in a loop and calculate the magnitude of the electric field along the electron's path when a magnetic field perpendicular to the plane of the electron's orbit is increased from zero to 1.58 T in 25 ms. V/m i

University Physics Volume 2

18th Edition

ISBN:9781938168161

Author:OpenStax

Publisher:OpenStax

Chapter11: Magnetic Forces And Fields

Section: Chapter Questions

Problem 31P: An alpha-particle ( m=6.641027kg , q=3.21019C ) travels in a circular path of radius 25 cm in a...

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Problem 1 A mass spectrometer is below. E = 1,000 V/m between the parallel plates and B = 0.5 T throughout the entire apparatus. A singly charged ion of mass = 4.0 X 10-26 kg flies straight through the velocity selector and into the magnetic chamber. Photographic plate Bin E Velocity selector Во, in O 2003 Thomson - Brooks Cole a) Is the ion positively or negatively charged? How does the experiment justify your answer? b) Calculate the speed of the ion as it exits the velocity selector. c) Calculate the radius of the path that the ion follows in the B field. d) What is the speed of the ion as it strikes point P? Justify your answer in terms of the work done by the magnetic field. X x X X x x X
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An alpha particle and an electron enter inside a magnetic field and move in the circles of the same size but in opposite directions. Find the velocity of alpha particle if the velocity of the electron is 22.9 x 106 m/s. Given that the mass of alpha particle is 8000 times the mass of electron and the charge of electron is half of the charge of alpha particle. Answer with two decimal places. Answer: Next pa Jump to... =hi (Log out) EC 1
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