In the figure, an electron with an initial kinetic energy of 4.10 keV enters region 1 at time t = 0. That region contains a uniform magnetic field directed into the page, with magnitude 0.00550 T. The electron goes through a half-circle and then exits region 1, headed toward region 2 across a gap of 23.0 cm. There is an electric potential difference AV = 2000 V across the gap, with a polarity such that the electron's speed increases uniformly as it traverses the gap. Region 2 contains a uniform magnetic field directed out of the page, with magnitude 0.0247 T. The electron goes through a half-circle and then leaves region 2. At what time t does it leave?
In the figure, an electron with an initial kinetic energy of 4.10 keV enters region 1 at time t = 0. That region contains a uniform magnetic field directed into the page, with magnitude 0.00550 T. The electron goes through a half-circle and then exits region 1, headed toward region 2 across a gap of 23.0 cm. There is an electric potential difference AV = 2000 V across the gap, with a polarity such that the electron's speed increases uniformly as it traverses the gap. Region 2 contains a uniform magnetic field directed out of the page, with magnitude 0.0247 T. The electron goes through a half-circle and then leaves region 2. At what time t does it leave?
Glencoe Physics: Principles and Problems, Student Edition
1st Edition
ISBN:9780078807213
Author:Paul W. Zitzewitz
Publisher:Paul W. Zitzewitz
Chapter26: Electromagnetism
Section26.1: Interactions Of Electric And Manetic Fields And Matter
Problem 4PP
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In the figure, an electron with an initial kinetic energy of 4.10 keV enters region 1 at time t = 0. That region contains a uniform magnetic field directed into the page, with magnitude 0.00550 T. The electron goes through a half-circle and then exits region 1, headed toward region 2 across a gap of 23.0 cm. There is an electric potential difference ΔV = 2000 V across the gap, with a polarity such that the electron's speed increases uniformly as it traverses the gap. Region 2 contains a uniform magnetic field directed out of the page, with magnitude 0.0247 T. The electron goes through a half-circle and then leaves region 2. At what time t does it leave?
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In the figure, an electron with an initial kinetic energy of 4.10 keV enters region 1 at time t = 0. That region contains a uniform magnetic
%3D
field directed into the page, with magnitude 0.00550 T. The electron goes through a half-circle and then exits region 1, headed toward
region 2 across a gap of 23.0 cm. There is an electric potential difference AV = 2000 V across the gap, with a polarity such that the
electron's speed increases uniformly as it traverses the gap. Region 2 contains a uniform magnetic field directed out of the page, with
magnitude 0.0247 T. The electron goes through a half-circle and then leaves region 2. At what time t does it leave?
O BỊ
Region 1
Region 2
O B2
Number
i
Units](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd8e200b2-f818-43a9-a2b6-9edcdf365696%2F9cb34e77-227f-4614-9b75-d71ea3ea722e%2Fx6xoar_processed.png&w=3840&q=75)
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Your answer is partially correct.
In the figure, an electron with an initial kinetic energy of 4.10 keV enters region 1 at time t = 0. That region contains a uniform magnetic
%3D
field directed into the page, with magnitude 0.00550 T. The electron goes through a half-circle and then exits region 1, headed toward
region 2 across a gap of 23.0 cm. There is an electric potential difference AV = 2000 V across the gap, with a polarity such that the
electron's speed increases uniformly as it traverses the gap. Region 2 contains a uniform magnetic field directed out of the page, with
magnitude 0.0247 T. The electron goes through a half-circle and then leaves region 2. At what time t does it leave?
O BỊ
Region 1
Region 2
O B2
Number
i
Units
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