Question
a.
10A
b.
0A
c.
Infinity
d.
20A
Posted under Basic Electrical Engineering
Interact with the Community - Share Your Thoughts
Uncertain About the Answer? Seek Clarification Here.
Understand the Explanation? Include it Here.
Q. A capacitor is charged to a voltage of 400V and has a resistance of 20ohm. Calculate the final value of the discharge current.
Similar Questions
Explore Relevant Multiple Choice Questions (MCQs)
Q. When will be capacitors fully charged?
View solution
Q. What happens to the capacitor when the capacitor voltage is equal to the source voltage?
View solution
Q. A capacitor is charged to a voltage of 400V and has a resistance of 20ohm. Calculate the final value of charging current.
View solution
Q. The charging time constant of a circuit consisting of a capacitor is the time taken for the charge in the capacitor to become __________ % of the initial charge.
View solution
Q. The discharging time constant of a circuit consisting of a capacitor is the time taken for the charge in the capacitor to become __________ % of the initial charge.
View solution
Q. A circuit has a resistance of 2 ohm connected in series with a capacitance of 6F. Calculate the charging time constant.
View solution
Q. A circuit has a resistance of 5 ohm connected in series with a capacitance of 10F. Calculate the discharging time constant.
View solution
Q. What is the value of current in a discharging capacitive circuit if the initial current is 2A at time t=RC.
View solution
Q. What is the value of current in a charging capacitive circuit if the initial current is 2A at time t=RC.
View solution
Q. While discharging, what happens to the current in the capacitive circuit?
View solution
Q. While discharging, what happens to the voltage in the capacitive circuit?
View solution
Q. While charging, what happens to the current in the capacitive circuit?
View solution
Q. While charging, what happens to the voltage in the capacitive circuit?
View solution
Q. An 8microF capacitor is connected in series with a 0.5 megaohm resistor. The DC voltage supply is 200V. Calculate the time constant.
View solution
Q. An 8microF capacitor is connected in series with a 0.5 megaohm resistor. The DC voltage supply is 200V. Calculate the initial charging current.
View solution
Q. A 8 microF capacitor is connected in series with a 0.5 megaohm resistor. The DC voltage supply is 200V. Calculate the time taken for the potential difference across the capacitor to grow to 160V.
View solution
Q. An 8microF capacitor is connected in series with a 0.5 megaohm resistor. The DC voltage supply is 200V. Calculate the voltage in the capacitor 4s after the power is supplied.
View solution
Q. An 8microF capacitor is connected in series with a 0.5 megaohm resistor. The DC voltage supply is 200V. Calculate the current in the capacitor 4s after the power is supplied.
View solution
Q. A circuit has a resistance of 2 ohms connected in series with a capacitance of 6F. Calculate the discharging time constant.
View solution
Q. What is the energy in a capacitor if the voltage is 5V and the charge is10C?
View solution
Recommended Subjects
Are you eager to expand your knowledge beyond Basic Electrical Engineering? We've handpicked a range of related categories that you might find intriguing.
Click on the categories below to discover a wealth of MCQs and enrich your understanding of various subjects. Happy exploring!