E R ww R ww Figure 2 Three capacitors are connected to a battery in an arrangement as shown in Figure 2. Given R is 100 Q and C is 400 µF, calculate the time constant for the circuit. After fully charged, the capacitors are disconnected from the battery, E. Calculate the time taken for total energy stored in three capacitors to become half of the initial value. Now the gap between the plates of the three capacitors is filled with the dielectric material of the same dielectric constant, &r, describe what will happen to the energy stored in the capacitors (if any).

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Please explain all in details. Calculate the time constant for the circuit. Calculate the time taken for total energy stored in three capacitors to become half of the initial value. Describe what will happen to the energy stored in the capacitors(if any).
E
C
C
R
R.
ww
Figure 2
Three capacitors are connected to a battery in an arrangement as shown in Figure 2. Given R is 100
Q and C is 400 uF, calculate the time constant for the circuit.
After fully charged, the capacitors are disconnected from the battery, E. Calculate the time taken for
total
energy
stored in three capacitors to become half of the initial value.
Now the
gap
between the plates of the three capacitors is filled with the dielectric material of the same
dielectric constant, &r, describe what will happen to the energy stored in the capacitors (if any).
Transcribed Image Text:E C C R R. ww Figure 2 Three capacitors are connected to a battery in an arrangement as shown in Figure 2. Given R is 100 Q and C is 400 uF, calculate the time constant for the circuit. After fully charged, the capacitors are disconnected from the battery, E. Calculate the time taken for total energy stored in three capacitors to become half of the initial value. Now the gap between the plates of the three capacitors is filled with the dielectric material of the same dielectric constant, &r, describe what will happen to the energy stored in the capacitors (if any).
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