College Physics
College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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I need help with part D and e please.
Consider the same charged particle moving in a uniform magnetic field with velocity and magnetic field vectors as shown below.
v = 108 m/s and
B = 0.530 Tesla
0= 56 degrees.
Note: There is no electric field for this part of the question.
e
T
d) What is the magnitude of the magnetic force acting on this particle? (Hint: Be careful, you are to enter your answer in µN, and
"magnitude" means enter a positive number).
μN
Moves in a straight line with decreasing speed
Moves in a straight line with increasing speed
Moves in a spiral pattern with constant pitch
Moves in a spiral pattern of decreasing pitch
O Moves in a spiral pattern with increasing pitch
00
002
e) Which of the following best describes the motion of the charged particle in this situation
Moves in a straight line at constant speed
Moves in a circle
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Transcribed Image Text:Consider the same charged particle moving in a uniform magnetic field with velocity and magnetic field vectors as shown below. v = 108 m/s and B = 0.530 Tesla 0= 56 degrees. Note: There is no electric field for this part of the question. e T d) What is the magnitude of the magnetic force acting on this particle? (Hint: Be careful, you are to enter your answer in µN, and "magnitude" means enter a positive number). μN Moves in a straight line with decreasing speed Moves in a straight line with increasing speed Moves in a spiral pattern with constant pitch Moves in a spiral pattern of decreasing pitch O Moves in a spiral pattern with increasing pitch 00 002 e) Which of the following best describes the motion of the charged particle in this situation Moves in a straight line at constant speed Moves in a circle
215
Consider a charged particle of mass m = 0.002 kg and charge q = -7 μC.
The particle is moving to the right (in the plane of the page) at velocity v = 108 m/s in a region of space that has uniform electric
and magnetic fields. The electric and magnetic forces are the only forces acting on the particle, and the particle moves in a
straight line with constant speed.
The electric field points down on the page (as shown), with magnitude E = 168 N/C
b) What is the direction of the magnetic field?
Towards the top of the page
a) If the magnetic field does not have any component parallel to the velocity, then what is the magnitude of the magnetic field?
Tesla
Into the page
O Out of the page
12
To the right on the page
O Towards the bottom of the page
O To the left on the page
O Can't be determined from the information provided
c) Consider what will happen if the electric field is suddenly turned off while keeping the magnetic field unchanged. The motion of
the charged particle after the electric field is turned off can be described as a
O A counterclockwise circle in the plane of the page (as viewed from your perspective looking at the drawing)
O A spiral of decreasing pitch
O A straight line with decreasing speed
OA spiral of increasing pitch
O A straight line with increasing speed
A clockwise circle in the plane of the page (as viewed for your perspective looking at the drawing)
O A circle, with the plane of the circle perpendicular to the page
expand button
Transcribed Image Text:215 Consider a charged particle of mass m = 0.002 kg and charge q = -7 μC. The particle is moving to the right (in the plane of the page) at velocity v = 108 m/s in a region of space that has uniform electric and magnetic fields. The electric and magnetic forces are the only forces acting on the particle, and the particle moves in a straight line with constant speed. The electric field points down on the page (as shown), with magnitude E = 168 N/C b) What is the direction of the magnetic field? Towards the top of the page a) If the magnetic field does not have any component parallel to the velocity, then what is the magnitude of the magnetic field? Tesla Into the page O Out of the page 12 To the right on the page O Towards the bottom of the page O To the left on the page O Can't be determined from the information provided c) Consider what will happen if the electric field is suddenly turned off while keeping the magnetic field unchanged. The motion of the charged particle after the electric field is turned off can be described as a O A counterclockwise circle in the plane of the page (as viewed from your perspective looking at the drawing) O A spiral of decreasing pitch O A straight line with decreasing speed OA spiral of increasing pitch O A straight line with increasing speed A clockwise circle in the plane of the page (as viewed for your perspective looking at the drawing) O A circle, with the plane of the circle perpendicular to the page
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