Given C 0.7 mF. R1 = 197 Ohms, R2 = 778 Ohms, and L= 1 H in Fig. P6.38, compute the voltage across the capacitor, V. RI R2 12 V + L. Figure P6.38 Notes on entering solution: • Enter your solution in Volts • Enter your solution to 2 decimal points • Do not include units in your answer ex. 5V is entered as 5.00
Given C 0.7 mF. R1 = 197 Ohms, R2 = 778 Ohms, and L= 1 H in Fig. P6.38, compute the voltage across the capacitor, V. RI R2 12 V + L. Figure P6.38 Notes on entering solution: • Enter your solution in Volts • Enter your solution to 2 decimal points • Do not include units in your answer ex. 5V is entered as 5.00
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Transcribed Image Text:Given C 0.7 mF. R1 = 197 Ohms, R2 = 778 Ohms, and L = 1 H in Fig. P6.38, compute
the voltage across the capacitor, Ve
%23
RI
R2
12 V (+
L
Figure P6.38
Notes on entering solution:
• Enter your solution in Volts
• Enter your solution to 2 decimal points
• Do not include units in your answer
• ex. 5V is entered as 5.00
Transcribed Image Text:Find the value of C, in uF, if the energy stored in the capacitor in Fig.P6.28 equals the
energy stored in the inductor. Given V = 12V, R1 = 391 Ohms, R2 290 Ohms, L 0.3
H. (note: the values of this problem may differ from the previous problem).
%3D
C
R1
R2
12 V
Figure P6.38
Notes on entering solution:
• Enter your solution in micro Farads
• Enter your solution to 2 decimal points
• Do not include units in your answer
• ex. 5 µF is entered as 5.00
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