Question: Charge capacitor. Once it is charged, disconnect it from battery. How do the quantities in Table 1 change? (refer to the image below). QuantityObservationsReasonsCharge (Q on caраcitorIncreasing potential charge oncapacitor will increase9 = evArea A, and separation d isCapacitance =constant. Therefore, capacitance (C)is also constant.Capacitance (C) of capacitorc == constantonincreasing the potentialThe increasing potential of batterypotential across capacitors will alsoPotential (V) across capacitorC = vincrease.This happens because,Potential difference = Electric field* distanceSlowly increasing potential wouldresult in steady increase in electricfield between the parallel plates.Electric Field (E) between platesAs the value of distance betweenthe plates is kept constant soElectric field is directlyproportional to potential ieEc VAccording to equation (1), Electricfield is directly proportional toApplied potential difference andinversely proportional to distancebetween plates. distance remainsconstant, so electric field is directlyproportional to Applied potentialdifference. When potential increasesslowly, so potential difference alsoincreases, it means the electric fieldbetween plates also increases.Direction of motion of electronsthe electric field between platesthrough batteryincreases

Given: Scenario where capacitor is charged and then disconnected from the battery.

Answered: Charge capacitor. Once it is charged,…

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Charge capacitor. Once it is charged, disconnect it from battery. How do the quantities in Table 1 change?

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Question

Question: Charge capacitor. Once it is charged, disconnect it from battery. How do the quantities in Table 1 change? (refer to the image below).

Quantity
Observations
Reasons
Charge (Q on caраcitor
Increasing potential charge on
capacitor will increase
9 = ev
Area A, and separation d is
Capacitance =
constant. Therefore, capacitance (C)
is also constant.
Capacitance (C) of capacitor
c =
= constant
on
increasing the potential
The increasing potential of battery
potential across capacitors will also
Potential (V) across capacitor
C = v
increase.
This happens because,
Potential difference = Electric field
* distance
Slowly increasing potential would
result in steady increase in electric
field between the parallel plates.
Electric Field (E) between plates
As the value of distance between
the plates is kept constant so
Electric field is directly
proportional to potential ie
Ec V
According to equation (1), Electric
field is directly proportional to
Applied potential difference and
inversely proportional to distance
between plates. distance remains
constant, so electric field is directly
proportional to Applied potential
difference. When potential increases
slowly, so potential difference also
increases, it means the electric field
between plates also increases.
Direction of motion of electrons
the electric field between plates
through battery
increases

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