(20%) Problem 2: Suppose you have a 1.9 μC point charge. 50% Part (a) How far in meters from the charge will the potential be 95 V if it is zero at infinity? 71=1 sin() cotan() atan()) cosh() cos() asin() acotan() tanh() Degrees Submit Hints: 3% deduction per hint. Hints remaining: 1 tan() π () 7 89 acos() 4 5 6 sinh() 1 2 3 cotanh() Radians Hint ↑ / * HOME + END 0 VO BACKSPACE DEL CLEAR Feedback I give up! Feedback: 3% deduction per feedback. A 50% Part (b) How far in meters from the charge will the potential be 220 V?
(20%) Problem 2: Suppose you have a 1.9 μC point charge. 50% Part (a) How far in meters from the charge will the potential be 95 V if it is zero at infinity? 71=1 sin() cotan() atan()) cosh() cos() asin() acotan() tanh() Degrees Submit Hints: 3% deduction per hint. Hints remaining: 1 tan() π () 7 89 acos() 4 5 6 sinh() 1 2 3 cotanh() Radians Hint ↑ / * HOME + END 0 VO BACKSPACE DEL CLEAR Feedback I give up! Feedback: 3% deduction per feedback. A 50% Part (b) How far in meters from the charge will the potential be 220 V?
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3) Find both the parts.
Transcribed Image Text:(20%) Problem 2: Suppose you have a 1.9 µC point charge.
A 50% Part (a) How far in meters from the charge will the potential be 95 V if it is zero at infinity?
71=1
sin()
cotan()
atan()
cosh()
cos()
asin()
acotan()
tanh()
Degrees
Submit
Hints: 3% deduction per hint. Hints remaining: 1
tan() J() 789
AA 4 5 6
acos()
1
1 2 3
sinh()
cotanh()
Radians
Hint
*
0
VO BACKSPACE
.
A 50% Part (b) How far in meters from the charge will the potential be 220 V?
HOME
END
DEL CLEAR
Feedback
I give up!
Feedback: 3% deduction per feedback.
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