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2. In a physics experiment, a 60. Os resistor is used to discharge a fully charged...
In a physics experiment, a 60.os resistor is used to discharge a fully charged go. Omf capacitor. Determine the time when there is on the capacitor. 20% of initial energy remaining
In a physics experiment, a 60.0 ohm resistor is used to discharge a fully charged 90.0 mF capacitor. Determine the time when there is 20% of initial energy remaining on the capacitor.
In a physics experiment, a 60.0 ohm resistor is used to discharge a fully charged 90.0 mF capacitor. Determine the time when there is 20% of initial energy remaining on the capacitor.
Please, using formula 2. In a physics experiment, a 60.0 h resistor is used to discharge fully charged 90.0 mf capacitor. Determina the time when there is on the capacitor. 20% of initial energy remaining
A 6.0 μF capacitor is fully charged and connected through a 100 Ω resistor. The time it takes for the capacitor to discharge at 37% of its initial charge is: a.3.2 x 10-5 s b.4.8 x 10-5 s c.6.6 x 10-5 s d.6.0 x 10-4 s
(a) A capacitor of capacitance 220 μF is connected in series with a 150 kΩ resistor, a switch and an ammeter. A d.c. power supply of negligible internal resistance is connected to the circuit as shown below 1 50 kΩ 220HF A stopclock is started and after 10 seconds the switch S is closed Ammeter readings are noted at regular intervals until a time of 80s is shown on the stopclock. The graph below shows how the current in the...
THQ-1 (5-points) An initially charged capacitor is discharged through a resistor: C a) Will the capacitor discharge faster or slower if the resistance is increased (using the same amount of initial charge)? b) Will the capacitor discharge faster or slower if the capacitance is increased (using the same amount of initial charge)? c) As the capacitor discharges, does the magnitude of the current through the resistor increase or decrease in time? d) As the capacitor discharges, what is the magnitude...
Figure 20.47 shows how a bleeder resistor (R = 260 kohm) is used to discharge a capacitor (c = 70.mu F) after an electronic device is shut off, allowing a person to work on the electronics with less risk of shock. (a) What is the time constant? s (b) How long will it take to reduce the voltage on the capacitor to o.300% of its full value once discharge begins? s (c) If the capacitor is charged to a voltage...
The figure below shows how a bleeder resistor (R = 226 kil) is used to discharge a capacitor (C = 56.7 PF) after an electronic device is shut off, allowing a person to work on the electronics with less risk of shock Electronic circuit CE (a) What is the time constant? 12.8 (b) How long will it take to reduce the voltage on the capacitor to 0.100% of its full value once discharge begins? (c) If the capacitor is charged...
A 500 micro-Farad capacitor is charged to an initial voltage of 10 V. It is then allowed to discharge through a 40 k0 resistor. You take measurements of voltage versus time and record a voltage of .80 volts after 50 seconds, and a voltage reading of .47 volts after 60 seconds. What is your percent error against the theoretical value of the voltage reading after three time constants?