You have a circuit that has two capacitors that are in parallel to each other in a circuit. The first capacitor is a parallel plate capacitor with a capacitance of 5.0 pF and an area of 200 mm2 . The second capacitor is also a plate capacitor with a separation distance of 2 mm. Draw a circuit showing just a battery and the two capacitors. (a) If the energy stored on the first capacitor is 10 µJ, what is the voltage drop across that capacitor? (b) If the second capacitor can store twice as much energy as the first capacitor, what is the area of the 2nd capacitor’s plates? (c) What is the distance between the plates for the first capacitor?
You have a circuit that has two capacitors that are in parallel to each other in a circuit. The first capacitor is a parallel plate capacitor with a capacitance of 5.0 pF and an area of 200 mm2 . The second capacitor is also a plate capacitor with a separation distance of 2 mm. Draw a circuit showing just a battery and the two capacitors. (a) If the energy stored on the first capacitor is 10 µJ, what is the voltage drop across that capacitor? (b) If the second capacitor can store twice as much energy as the first capacitor, what is the area of the 2nd capacitor’s plates? (c) What is the distance between the plates for the first capacitor?
Related questions
Question
You have a circuit that has two capacitors that are in parallel to each other
in a circuit. The first capacitor is a parallel plate capacitor with a capacitance of 5.0
pF and an area of 200 mm2
. The second capacitor is also a plate capacitor with a
separation distance of 2 mm. Draw a circuit showing just a battery and the two capacitors.
(a) If the energy stored on the first capacitor is 10 µJ, what is the voltage drop across
that capacitor?
(b) If the second capacitor can store twice as much energy as the first capacitor, what
is the area of the 2nd capacitor’s plates?
(c) What is the distance between the plates for the first capacitor?
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
Step by step
Solved in 3 steps with 2 images