Question 1. Adjusting the slide on the left changes the voltage of the battery connected to...
Question 1. Adjusting the slide on the left changes the voltage of the battery connected to
the capacitor. Does the capacitor have the same voltage as the battery? Explain.
(Use the voltage probes to directly measure the voltage of the capacitor.)
Question 2. What does changing the battery voltage do to the capacitance of the capacitor,
its voltage or the amount of charge on the plates? Explain.
Question 3. Give the battery a voltage of 1.0 V and leave it connected to the capacitor. How
are the voltage, capacitance and amount of charge on the capacitor affected
when the plate area is changed? Does anything remain constant? Explain.
Question 4. Give the battery a voltage of 1.0 V before disconnecting it from the capacitor.
How are the voltage, capacitance and amount of charge on the capacitor affected
when the plate area is changed? Does anything remain constant? How is this
situation different than having the battery connected to the capacitor? Explain.
Homework Answers
Add Answer to:
Question 1. Adjusting the slide on the left
changes the voltage of the battery connected to...
Two parallel plates, each having area A 3676cm are connected to the terminals of a battery of voltage V, 6 V A as shown...
Two parallel plates, each having area A 3676cm are connected to the terminals of a battery of voltage V, 6 V A as shown. The plates are separated by a distance d 0.42cm. You may assume (contrary to the drawing) that the separation between the plates is small compared to a linear dimension of the plate + A 1) What is C, the capacitance of this parallel plate capacitor? 7.746E-4 uF Submit 2) What is Q, the charge stored on...
A parallel plate capacitor with capacitance C0 is connected to a battery with voltage V0 and...
A parallel plate capacitor with capacitance C0 is connected to a battery with voltage V0 and is charged fully to a charge Q0. There is an electric field E0 between the plates and energy U0 stored in the capacitor. With the battery still connected, the area of the plates are doubles and the plates are pulled to a distance three times its original distance (while still being small compared to the size of the plates). Find (in terms of the...
A parallel-plate capacitor with area 0.100 m2 and plate separation of 2.00 mm is connected to...
A parallel-plate capacitor with area 0.100 m2 and plate separation of 2.00 mm is connected to a 9.00-V battery. (a) What is the capacitance? (b) How much charge is stored on the plates? (c) What is the electric field between the plates? (d) Find the magnitude of the charge density on each plate. (e) Without disconnecting the battery, the plates are moved farther apart. Qualitatively, what happens to each of the previous answers?
A parallel-plate capacitor with area 0.320 m2 and plate separation of 2.00 mm is connected to...
A parallel-plate capacitor with area 0.320 m2 and plate separation of 2.00 mm is connected to a 5.80-V battery. a.) What is the capacitance? b.) How much charge is stored on the plates? c.) What is the electric field between the plates? d.) Find the magnitude of the charge density on each plate. e.) Without disconnecting the battery, the plates are moved farther apart. Qualitatively, what happens to each of the previous answers?
Two parallel plates, each having area A- 2737cm are connected to the terminals of a battery...
Two parallel plates, each having area A- 2737cm are connected to the terminals of a battery of voltage Vb 6 V as shown. The plates are separated by a distance d 0.38cm. You may assume (contrary to the drawing) that the separation between the plates is small compared to a linear dimension of the plate 1) What is C, the capacitance of this parallel plate capacitor? Submit 2) What is Q, the charge stored on the top plate of the...
QUESTION 5 A capacitor is fully charged by a battery. When the capacitor is still connected...
QUESTION 5 A capacitor is fully charged by a battery. When the capacitor is still connected to the battery, the distance between the two plates decreases. Which of the followings will remain the same? Select all that apply. (a) voltage across the capacitor (b) capacitance (c) charge stored in the capacitor (d) electric field between the two plates (e) electric potential energy stored in the capacitor QUESTION 6 A capacitor is fully charged by a battery. When the capacitor is...
Two capacitors are connected to each other and the battery is removed. The voltage across each...
Two capacitors are connected to each other and the battery is removed. The voltage across each capacitor is 5.5 volts. V = V1 = V2 = 5.5 V. The capacitance of C1 = 1.0 x 10 ^-6 F and the capacitance of C2= 2.0 x 10 ^-6 F. What is the charge on each capacitor? If the gap between the plates of C1 if filled with paraffin (dielectric constant K=2.2) what is the new charge on each capacitor and what...
A parallel plate capacitor of capacitance C0 has plates of area A with separation d between them. When it is connected to a battery of voltage V0
A parallel plate capacitor of capacitance C0 has plates of area A with separation d between them. When it is connected to a battery of voltage V0, it has charge of magnitude Q0 on its plates. It is then disconnected from the battery and the plates are pulled apart to a separation 2d without discharging them. After the plates are 2d apart, the new capacitance and the potential difference between the plates are (Show your work or reasoning)
A parallel-plate capacitor with circular plates and a capacitance of 13.1 mu F is connected to...
A parallel-plate capacitor with circular plates and a capacitance of 13.1 mu F is connected to a battery which provides a voltage of 10 9 V. What is the charge on each plate? How much charge would be on the plates if their separation were doubled while the capacitor remained connected to the battery? How much charge would be on the plates if the capacitor were connected to the battery after the radios of each plate was doubled without changing...
A parallel-plate capacitor with area 0.600 m2 and plate separation of 4.00 mm is connected to...
A parallel-plate capacitor with area 0.600 m2 and plate separation of 4.00 mm is connected to a 9.00 V battery. (a) What is the capacitance? Your response differs significantly from the correct answer. Rework your solution from the beginning and check each step carefully. F (b) How much charge is stored on the plates? (c) What is the electric field between the plates? N/C (d) Find the magnitude of the charge density on each plate. C/m2 (e) Without disconnecting the...
Two parallel plates, each having area A 3676cm are connected to the terminals of a battery of voltage V, 6 V A as shown. The plates are separated by a distance d 0.42cm. You may assume (contrary to the drawing) that the separation between the plates is small compared to a linear dimension of the plate + A 1) What is C, the capacitance of this parallel plate capacitor? 7.746E-4 uF Submit 2) What is Q, the charge stored on...
Two parallel plates, each having area A- 2737cm are connected to the terminals of a battery of voltage Vb 6 V as shown. The plates are separated by a distance d 0.38cm. You may assume (contrary to the drawing) that the separation between the plates is small compared to a linear dimension of the plate 1) What is C, the capacitance of this parallel plate capacitor? Submit 2) What is Q, the charge stored on the top plate of the...
A parallel-plate capacitor with circular plates and a capacitance of 13.1 mu F is connected to a battery which provides a voltage of 10 9 V. What is the charge on each plate? How much charge would be on the plates if their separation were doubled while the capacitor remained connected to the battery? How much charge would be on the plates if the capacitor were connected to the battery after the radios of each plate was doubled without changing...
A parallel-plate capacitor with area 0.600 m2 and plate separation of 4.00 mm is connected to a 9.00 V battery. (a) What is the capacitance? Your response differs significantly from the correct answer. Rework your solution from the beginning and check each step carefully. F (b) How much charge is stored on the plates? (c) What is the electric field between the plates? N/C (d) Find the magnitude of the charge density on each plate. C/m2 (e) Without disconnecting the...
Most questions answered within 3 hours.
-
What is the difference between a doubly and singly
linked list and what would this code...
asked 3 minutes ago -
Two light sources are used in a photoelectric experiment to
determine the work function for a...
asked 11 minutes ago -
What are the possible consequences of China's
continuing control of access to the internet?
asked 16 minutes ago -
An apple at 30°C with average mass of 0.2 kg and average
specific heat of 3.65...
asked 17 minutes ago -
What is the Account Receivable cycle in details? please
provide the link of the book or...
asked 24 minutes ago -
A retired couple supplement their income by making fruit pies,
which they sell to a local...
asked 27 minutes ago -
Needing some help on the below:
I believe that the proportion of people who live in...
asked 31 minutes ago -
Gorillas can travel great distances to forage and their ranges
are large enough that they do...
asked 33 minutes ago -
A portfolio consists of $15,400 in Stock M and $23,900 invested
in Stock N. The expected...
asked 47 minutes ago -
Consider a consumer who derives utility from two goods:
consumption (Good C) and leisure (Good H,...
asked 43 minutes ago -
Lightning, an electromagnetic discharge, is known to occur in
the atmospheres of other planets, including Jupiter...
asked 46 minutes ago -
An African Swallow, flying with a
horizontal velocity of 80 m/s due North, drops a coconut...
asked 51 minutes ago