Part 1) A) B) 米米 D) -E- Consider a positively charged particle creating an electric field. Which of the above shows an equipotential surface? O A: parallelogram centred on the point charge. O B: a circle passing through the point charge. O C: a circle with the point charge at its centre. O D: a circle at a distance from the point charge. When moved between any two points of the equipotential surface, on which surfaces will the potential energy of a charged particle remain the same?
Part 1) A) B) 米米 D) -E- Consider a positively charged particle creating an electric field. Which of the above shows an equipotential surface? O A: parallelogram centred on the point charge. O B: a circle passing through the point charge. O C: a circle with the point charge at its centre. O D: a circle at a distance from the point charge. When moved between any two points of the equipotential surface, on which surfaces will the potential energy of a charged particle remain the same?
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
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Question
there can be more than one answer for part 1
![Part 2)
2.44 x 10-19 C
A charged particle q1
and m2 = 7.00 × 10¬³' kg is brought into this electric field.
1.81 × 10-19 C is generating a radial electric field outwards. Another positive charge with q2
-31
Calculate the electrical potential at distance r =
: 2.83 pm from the charge q1 ·
V
Part 3)
183 V. If its initial
The charge q2 moves from the point with the potential calculated in Part 2 to a position with a lower potential, V2
velocity is v; = 3.18 m/s, calculate its final kinetic energy.
KE
J](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ffd4c2e3f-51f7-4f55-97f5-e8142969ebb7%2Fbdb14663-d459-4b58-8d89-e41e1bd6b32c%2F4zra0nh_processed.png&w=3840&q=75)
Transcribed Image Text:Part 2)
2.44 x 10-19 C
A charged particle q1
and m2 = 7.00 × 10¬³' kg is brought into this electric field.
1.81 × 10-19 C is generating a radial electric field outwards. Another positive charge with q2
-31
Calculate the electrical potential at distance r =
: 2.83 pm from the charge q1 ·
V
Part 3)
183 V. If its initial
The charge q2 moves from the point with the potential calculated in Part 2 to a position with a lower potential, V2
velocity is v; = 3.18 m/s, calculate its final kinetic energy.
KE
J
![Part 1)
米
A)
B)
米
米
C)
D)
Consider a positively charged particle creating an electric field.
Which of the above shows an equipotential surface?
A: parallelogram centred on the point charge.
B: a circle passing through the point charge.
C: a circle with the point charge at its centre.
D: a circle at a distance from the point charge.
When moved between any two points of the equipotential surface, on which surfaces will the potential energy of a charged particle remain
the same?
A
В
六ネ](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ffd4c2e3f-51f7-4f55-97f5-e8142969ebb7%2Fbdb14663-d459-4b58-8d89-e41e1bd6b32c%2Fx29cu6_processed.png&w=3840&q=75)
Transcribed Image Text:Part 1)
米
A)
B)
米
米
C)
D)
Consider a positively charged particle creating an electric field.
Which of the above shows an equipotential surface?
A: parallelogram centred on the point charge.
B: a circle passing through the point charge.
C: a circle with the point charge at its centre.
D: a circle at a distance from the point charge.
When moved between any two points of the equipotential surface, on which surfaces will the potential energy of a charged particle remain
the same?
A
В
六ネ
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