6. (a) A lμC charge is at the center of the square shown below. How much external work is needed to move it to the corner of the square (assuming it is initially and finally at rest)? -5 µC 2 cm 2 μC 2 cm I jic 10 μC (b) If the total energy of a system is negative, it is called a bound system. Otherwise, it is an unbound system. When the 1μC charge is at the corner of the square, is the system bound or unbound²?
6. (a) A lμC charge is at the center of the square shown below. How much external work is needed to move it to the corner of the square (assuming it is initially and finally at rest)? -5 µC 2 cm 2 μC 2 cm I jic 10 μC (b) If the total energy of a system is negative, it is called a bound system. Otherwise, it is an unbound system. When the 1μC charge is at the corner of the square, is the system bound or unbound²?
Physics for Scientists and Engineers: Foundations and Connections
1st Edition
ISBN:9781133939146
Author:Katz, Debora M.
Publisher:Katz, Debora M.
Chapter26: Electric Potential
Section: Chapter Questions
Problem 16PQ: Four charged particles are at rest at the corners of a square (Fig. P26.14). The net charges are q1...
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Can this please be explained in a different way than it already was? I cannot understand how they mathematically typed the answer.
Thank you
Transcribed Image Text:6. (a) A lμC charge is at the center of the square shown below. How much external work
is needed to move it to the corner of the square (assuming it is initially and finally
at rest)?
-5 µc
2 cm
1 μC
2 cm
1 с
2
- 10 με
(b) If the total energy of a system is negative, it is called a bound system. Otherwise, it
is an unbound system. When the 1μC charge is at the corner of the square, is the
system bound or unbound??
(c) Suppose the four charges on the corners of the square are no longer fixed and are
free to move. What will be the final velocity of the 1μC charge?
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