Consider the following figure. 7.00 N 4.00 N 9.00 2 R a (a) Find the equivalent resistance between points a and b in the figure. (R = 20.0 0) (b) Calculate the current in each resistor if a potential difference of 36.0 V is applied between points a and b. I (4.00 0) = A I (7.00 N) = I (20.0 0) = A I (9.00 0) = A

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Chapter1: Units, Trigonometry. And Vectors
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4.
DETAILS
SERPSE10 27.2.OP.007.MI.
Consider the following figure.
7.00 N
4.00 2
9.00 2
R
a
(a) Find the equivalent resistance between points a and b in the figure. (R = 20.0 Q)
(b) Calculate the current in each resistor if a potential difference of 36.0 V is applied between points a and b.
I (4.00 N) =
A
A
I (7.00 0) =
I (20.0 0) =
A.
I (9.00 0) =
A
5.
DETAILS
SERPSE10 27.4.OP.024.
Consider the circuit shown in the figure. A short time after closing the switch, the charge on the capacitor is 75.0% of its initial charge. Assume the circuit has a time constant of 17.7 s.
R-
(a) Calculate the time interval required (in s) for the capacitor to reach this charge.
(b) If R = 300 kn, what is the value of C (in µF)?
P Type here to search
远
Transcribed Image Text:4. DETAILS SERPSE10 27.2.OP.007.MI. Consider the following figure. 7.00 N 4.00 2 9.00 2 R a (a) Find the equivalent resistance between points a and b in the figure. (R = 20.0 Q) (b) Calculate the current in each resistor if a potential difference of 36.0 V is applied between points a and b. I (4.00 N) = A A I (7.00 0) = I (20.0 0) = A. I (9.00 0) = A 5. DETAILS SERPSE10 27.4.OP.024. Consider the circuit shown in the figure. A short time after closing the switch, the charge on the capacitor is 75.0% of its initial charge. Assume the circuit has a time constant of 17.7 s. R- (a) Calculate the time interval required (in s) for the capacitor to reach this charge. (b) If R = 300 kn, what is the value of C (in µF)? P Type here to search 远
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