Hand write, More details At time t = 0 the switch is closed after being open for a long time. 1. Find v(t) across the capacitor for t> 0. At time t = 1 second, the switch opens. 2. What is v(t) at t = 1 second, right before the switch opens? 3. Determine the time it takes for v(t) = 1/3 × v(t = 1 sec). 4. Find the instantaneous power p(t) dissipated by the circuit for t>1 second. Find the total energy dissipated bey the resistors during this time. 5. 6. Find the total energy stored in the capacitor. 1 ΚΩ 10 V + m 6 ΚΩ · 2 ΚΩ 2/3 u F
Hand write, More details At time t = 0 the switch is closed after being open for a long time. 1. Find v(t) across the capacitor for t> 0. At time t = 1 second, the switch opens. 2. What is v(t) at t = 1 second, right before the switch opens? 3. Determine the time it takes for v(t) = 1/3 × v(t = 1 sec). 4. Find the instantaneous power p(t) dissipated by the circuit for t>1 second. Find the total energy dissipated bey the resistors during this time. 5. 6. Find the total energy stored in the capacitor. 1 ΚΩ 10 V + m 6 ΚΩ · 2 ΚΩ 2/3 u F
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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At time t = 0 the switch is closed after being open for a long time.
1. Find v(t) across the capacitor for t > 0.
At time t = 1 second, the switch opens.
2. What is v(t) at t = 1 second, right before the switch opens?
3. Determine the time it takes for v(t) = 1/3 × v(t = 1 sec).
4. Find the instantaneous power p(t) dissipated by the circuit for t > 1 second.
5. Find the total energy dissipated bey the resistors during this time.
6. Find the total energy stored in the capacitor.
1 ΚΩ
10 V
+1
6 ΚΩ
2 ΚΩ
2/3 u F
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