Problem 10: Charge Q₁ = 1.81 µC is located at Charge Q₂ = 5.52 μC is located at 72= = (8.00 m) – (5.95 m)} - (9.00 m) The force on the first charge due to the second charge can be written, using Cartesian unit vectors, as follows: F = Fx Î + Fyj + F₂ k Part (a) What is the magnitude, in newtons, of the force on the first charge due to the second charge? F = | N sin() cotan() atan() cosh() Hints: 0 for a 0% deduction. Hints remaining: 0 7₁ = (3.93 m) - (2.00 m)j + (5.14 m) cos() asin() Submit tan() π() acos() EMA 4 sinh() cotanh() acotan() tanh() Degrees O Radians Hint 7 Feedback 1 0 ∞0 102 89 HOME 5 6 3 + END VO BACKSPACE DEL CLEAR I give up! Feedback: 0% deduction per feedback. Part (b) What is the value, in newtons, of the x component of the force on the first charge due to the second charge? Part (c) What is the value, in newtons, of the y component of the force on the first charge due to the second charge? Part (d) What is the value, in newtons, of the z component of the force on the first charge due to the second charge?

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Problem 10: Charge Q₁ = 1.81 µC is located at
Charge Q₂ = 5.52 μC is located at
72= = (8.00 m) – (5.95 m)} - (9.00 m)
The force on the first charge due to the second charge can be written, using Cartesian unit vectors, as follows:
F = Fx Î + Fyj + F₂ k
Part (a) What is the magnitude, in newtons, of the force on the first charge due to the second charge?
F = |
N
sin()
cotan()
atan()
cosh()
Hints: 0 for a 0% deduction. Hints remaining: 0
7₁ = (3.93 m) - (2.00 m)j + (5.14 m)
cos()
asin()
Submit
tan() π()
acos() EMA 4
sinh()
cotanh()
acotan()
tanh()
Degrees O Radians
Hint
7
Feedback
1
0
∞0 102
89 HOME
5
6
3
+
END
VO BACKSPACE DEL CLEAR
I give up!
Feedback: 0% deduction per feedback.
Part (b) What is the value, in newtons, of the x component of the force on the first charge due to the second charge?
Part (c) What is the value, in newtons, of the y component of the force on the first charge due to the second charge?
Part (d) What is the value, in newtons, of the z component of the force on the first charge due to the second charge?
Transcribed Image Text:Problem 10: Charge Q₁ = 1.81 µC is located at Charge Q₂ = 5.52 μC is located at 72= = (8.00 m) – (5.95 m)} - (9.00 m) The force on the first charge due to the second charge can be written, using Cartesian unit vectors, as follows: F = Fx Î + Fyj + F₂ k Part (a) What is the magnitude, in newtons, of the force on the first charge due to the second charge? F = | N sin() cotan() atan() cosh() Hints: 0 for a 0% deduction. Hints remaining: 0 7₁ = (3.93 m) - (2.00 m)j + (5.14 m) cos() asin() Submit tan() π() acos() EMA 4 sinh() cotanh() acotan() tanh() Degrees O Radians Hint 7 Feedback 1 0 ∞0 102 89 HOME 5 6 3 + END VO BACKSPACE DEL CLEAR I give up! Feedback: 0% deduction per feedback. Part (b) What is the value, in newtons, of the x component of the force on the first charge due to the second charge? Part (c) What is the value, in newtons, of the y component of the force on the first charge due to the second charge? Part (d) What is the value, in newtons, of the z component of the force on the first charge due to the second charge?
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