# The voltage across a 4-mF capacitor is shown below. Find the current waveform. v (V) 10 t (ENGR 201 HOMEWORK 9&10 6.5. The voltage across a 4-mF capacitor is shown below

ENGR 201 HOMEWORK 9&10 6.5. The voltage across a 4-mF capacitor is shown below. Find the current waveform. v (V) 10 t (ms) 0 2 4 6 8 â10 6.7. At t=0, the voltage across a 50-mF capacitor is 10 V. Calculate the voltage across the capENGR 201 HOMEWORK 9&10 6.5. The voltage across a 4-mF capacitor is shown below. Find the current waveform. v (V) 10 t (ms) 0 2 4 6 8 â10 6.7. At t=0, the voltage across a 50-mF capacitor is 10 V. Calculate the voltage across the capacitor for t > 0 when current 4t mA flows through it. 6.17b. Determine the equivalent capacitance for each of the circuits 0 2 4 6 8

6.19. Find the equivalent capacitance between terminals a and b in the circuit. All capacitances are in mF. 6.38. The current through a 40-mH inductor is 0 for t 0 Find the voltage v(t). 6.40.

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ENGR 201 HOMEWORK 9&10 6.5. The voltage across a 4-mF capacitor is shown below. Find the current waveform. v (V) 10 t (ENGR 201 HOMEWORK 9&10 6.5. The voltage across a 4-mF capacitor is shown below. Find the current waveform. v (V) 10 t (ms) 0 2 4 6 8 â10 6.7. At t=0, the voltage across a 50-mF capacitor is 10 V. Calculate the voltage across the capacitor for t > 0 when current 4t mA flows through it. 6.17b. Determine the equivalent capacitance for each of the circuits 0 2 4 6 8

6.19. Find the equivalent capacitance between terminals a and b in the circuit. All capacitances are in mF. 6.38. The current through a 40-mH inductor is 0 for t 0 Find the voltage v(t). 6.40.

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ENGR 201 HOMEWORK 9&10 6.5. The voltage across a 4-mF capacitor is shown below. Find the current waveform. v (V) 10 t (ms) 0 2 4 6 8 â10 6.7. At t=0, the voltage across a 50-mF capacitor is 10 V. Calculate the voltage across the capacitor for t > 0 when current 4t mA flows through it. 6.17b. Determine the equivalent capacitance for each of the circuits 0 2 4 6 8

6.19. Find the equivalent capacitance between terminals a and b in the circuit. All capacitances are in mF. 6.38. The current through a 40-mH inductor is 0 for t 0 Find the voltage v(t). 6.40. The current through a 10-mH inductor is shown. Des) 0 2 4 6 8 â10 6.7. At t=0, the voltage across a 50-mF capacitor is 10 V. Calculate the voltage across the capacitor for t > 0 when current 4t mA flows through it. 6.17b. Determine the equivalent capacitance for each of the circuits 0 2 4 6 8

6.19. Find the equivalent capacitance between terminals a and b in the circuit. All capacitances are in mF. 6.38. The current through a 40-mH inductor is 0 for t 0 Find the voltage v(t). 6.40. The current through a 10-mH inductor is shown. Deacitor for t > 0 when current 4t mA flows through it. 6.17b. Determine the equivalent capacitance for each of the circuits 0 2 4 6 8

6.19. Find the equivalent capacitance between terminals a and b in the circuit. All capacitances are in mF. 6.38. The current through a 40-mH inductor is 0 for t 0 Find the voltage v(t). 6.40.

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ENGR 201 HOMEWORK 9&10 6.5. The voltage across a 4-mF capacitor is shown below. Find the current waveform. v (V) 10 t (ms) 0 2 4 6 8 â10 6.7. At t=0, the voltage across a 50-mF capacitor is 10 V. Calculate the voltage across the capacitor for t > 0 when current 4t mA flows through it. 6.17b. Determine the equivalent capacitance for each of the circuits 0 2 4 6 8

6.19. Find the equivalent capacitance between terminals a and b in the circuit. All capacitances are in mF. 6.38. The current through a 40-mH inductor is 0 for t 0 Find the voltage v(t). 6.40. The current through a 10-mH inductor is shown. De