Shown in the figure below is a capacitor. Each plate has an area of A = 3.45e-02 m² and has a gap d = 6.7e-04 meters. At the fir layer is a = 2.01e-04 meters leaving a free space of b = 4.69e-04 meters. Empty Capacitor Area = A d - Write the FORMULA for the capacitance of the empty capacitor. O Neither series nor parallel O Series Parallel Partly Filled Capacitor X Determine the capacitance of the empty capacitor Cempty= When you partly fill the capacitor, which of these best describes the new configuration: Both series and parallel EA d Determine the formula for the partly filled capacitor Chilled = dielectric constant K Farads Farads X Determine the value of the partly filled capacitor Chilled = NOTE: Decide whether the partly filled capacitor acts like parallel or series by following the charge: • If the charge splits between the caps, parallel. • If the charge is the same on both caps, series. • The formula for the filled capacitor should use only the distances a and b (NOT d).
Shown in the figure below is a capacitor. Each plate has an area of A = 3.45e-02 m² and has a gap d = 6.7e-04 meters. At the fir layer is a = 2.01e-04 meters leaving a free space of b = 4.69e-04 meters. Empty Capacitor Area = A d - Write the FORMULA for the capacitance of the empty capacitor. O Neither series nor parallel O Series Parallel Partly Filled Capacitor X Determine the capacitance of the empty capacitor Cempty= When you partly fill the capacitor, which of these best describes the new configuration: Both series and parallel EA d Determine the formula for the partly filled capacitor Chilled = dielectric constant K Farads Farads X Determine the value of the partly filled capacitor Chilled = NOTE: Decide whether the partly filled capacitor acts like parallel or series by following the charge: • If the charge splits between the caps, parallel. • If the charge is the same on both caps, series. • The formula for the filled capacitor should use only the distances a and b (NOT d).
Physics for Scientists and Engineers, Technology Update (No access codes included)
9th Edition
ISBN:9781305116399
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter26: Capacitance And Dielectrics
Section: Chapter Questions
Problem 26.10OQ: (i) A battery is attached to several different capacitors connected in parallel. Which of the...
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![Shown in the figure below is a capacitor. Each plate has an area of A = 3.45e-02 m² and has a gap d = 6.7e-04 meters. At the first moment, the capacitor is empty. At the second moment is it partly filled with a dielectric of constant K = 2.57. The thickness of the dielectric
layer is a = 2.01e-04 meters leaving a free space of b = 4.69e-04 meters.
d
Empty Capacitor
Area = A
a
b
Partly Filled Capacitor
Write the FORMULA for the capacitance of the empty capacitor.
Determine the capacitance of the empty capacitor Cempty
=
Determine the formula for the partly filled capacitor Cfilled =
Determine the value of the partly filled capacitor Cfilled
=
& A
d
When you partly fill the capacitor, which of these best describes the new configuration:
O Both series and parallel
O Neither series nor parallel
Series
O Parallel
dielectric constant K
Farads
Farads
NOTE: Decide whether the partly filled capacitor acts like parallel or series by following the charge:
• If the charge splits between the caps, parallel.
• If the charge is the same on both caps, series.
• The formula for the filled capacitor should use only the distances a and b (NOT d).](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F093e7116-3e01-49ad-9157-7a22a5caeb16%2Ff9118515-1f5e-4b9d-aaf8-e560d99fffc6%2Fm469xzq_processed.png&w=3840&q=75)
Transcribed Image Text:Shown in the figure below is a capacitor. Each plate has an area of A = 3.45e-02 m² and has a gap d = 6.7e-04 meters. At the first moment, the capacitor is empty. At the second moment is it partly filled with a dielectric of constant K = 2.57. The thickness of the dielectric
layer is a = 2.01e-04 meters leaving a free space of b = 4.69e-04 meters.
d
Empty Capacitor
Area = A
a
b
Partly Filled Capacitor
Write the FORMULA for the capacitance of the empty capacitor.
Determine the capacitance of the empty capacitor Cempty
=
Determine the formula for the partly filled capacitor Cfilled =
Determine the value of the partly filled capacitor Cfilled
=
& A
d
When you partly fill the capacitor, which of these best describes the new configuration:
O Both series and parallel
O Neither series nor parallel
Series
O Parallel
dielectric constant K
Farads
Farads
NOTE: Decide whether the partly filled capacitor acts like parallel or series by following the charge:
• If the charge splits between the caps, parallel.
• If the charge is the same on both caps, series.
• The formula for the filled capacitor should use only the distances a and b (NOT d).
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