Question

A 14μ F capacitor is joined in series with a 30μ F capacitor and a 12 Volts battery.

What is the potential difference across the first capacitor?

What is the potential difference across the second capacitor?

What is the charge on the first capacitor?

What is the charge on the second capacitor?

How much energy is stored by the first capacitor?

How much energy is stored by the second capacitor?

Answer #1

A 15μ F capacitor is joined in series with a 32μ F capacitor and
a 12 Volts battery. What is the potential difference across the
first capacitor?
What is the potential difference across the second
capacitor?
What is the charge on the first capacitor?
What is the charge on the second capacitor?
How much energy is stored by the first capacitor?
How much energy is stored by the second capacitor?

A 11.9 μ F capacitor and a 18 μ F capacitor
are connected in parallel across the terminals of a 6.0 V
battery.
1)What is the equivalent
capacitance of this combination?
2)What is the potential difference across the
11.9μF capacitor?
3)What is the potential difference across the 18μF
capacitor?
4)What is the charge on the 11.9 μF
capacitor?
5)What is the charge on the 18 μF
capacitor?
6)Find the energy stored
in the 11.9 μF capacitor.
7)Find the energy stored...

An 8 pF capacitor is connected in series to a parallel
combination of a 15 pF and a 3 pF capacitor, the circuit is then
charged using a battery with an emf of 34 V.
a) What is the potential difference across the 8 pF
capacitor?
b) What is the charge on the 3 pF capacitor?
c) How much energy is stored in the 15 pF capacitor?

A 1.2mF capacitor and a 1.0mF capacitor are connected in series
to a 12V battery. a) Calculate the potential difference across each
capacitor and the charge on each. b) Find the electric energy
stored in each capacitor. c) Place a paraffin dielectric (K=2.2)
into the 1.2mF capacitor and redo a) and b).

A 9.4 µF capacitor and a 23.4 µF capacitor are connected in
series across the terminals of a 6.00-V battery
(a) What is the equivalence capacitance of this
combination?
µF
(b) Find the charge on each capacitor.
µC across the 9.4 µF capacitor.
µC across the 23.4 µF capacitor.
(c) Find the potential difference across each capacitor.
V across the 9.4 µF capacitor.
V across the 23.4 µF capacitor.
(d) Find the energy stored in each capacitor.
µJ stored in...

A 1.50 µF capacitor and a 6.75 µF capacitor are connected in
series across a 2.50 V battery. How much charge (in µC) is stored
on each capacitor? How much charge is stored on each capacitor if
they are in parallel with the battery?
Show work please

A) Charge a 3 microfarad capacitor by hooking it to a battery (a
voltage difference supplier) that has a potential difference of 15
volts. a) What is the charge on one the capacitor plates? b) If the
plate separation is 2 x 10-6 meters, what is the electric field
between the plates? c) How much energy is stored?
B) Leaving the battery connected, you insert a dielectric with a
constant of 3.7 between the plate of the capacitor. a) What...

A 13 pF capacitor is connected in series with a 5 pF and 9 pF
capacitor that are connected in parallel. The three capacitors are
connected to a 26 V battery.
A) What is the equivalent capacitance of the circuit?
B) How much charge is on the 13 pF capacitor?
C) What is the potential difference across the 5 pF
capacitor?
D) A parallel plate capacitor of plate area A and plate
separation d is fully charged using a battery...

A 13 pF capacitor is connected in series with a 5 pF and 9 pF
capacitor that are connected in parallel. The three capacitors are
connected to a 26 V battery. (Show all your work!) A) What is the
equivalent capacitance of the circuit? B) How much charge is on the
13 pF capacitor? C) What is the potential difference across the 5
pF capacitor?
D) A parallel plate capacitor of plate area A and plate
separation d is fully...

A 3.0M? resistor is connected in series with an initially
uncharged 0.27?F capacitor. This arrangement is then
connected across four 1.5-V batteries (also in series).
A)
What is the maximum current in the circuit?
B)
When does it occur? (sec)
C)
What percentage of the maximum current is in the circuit after
1.4s
D)
What is the maximum charge on the capacitor?
E)
When does it occur? (sec)
F)
What percentage of the maximum charge is on the capacitor after...

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