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Test: Energy Stored in a Capacitor (NCERT) - NEET MCQ


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15 Questions MCQ Test NCERTs at Fingertips: Textbooks, Tests & Solutions - Test: Energy Stored in a Capacitor (NCERT)

Test: Energy Stored in a Capacitor (NCERT) for NEET 2024 is part of NCERTs at Fingertips: Textbooks, Tests & Solutions preparation. The Test: Energy Stored in a Capacitor (NCERT) questions and answers have been prepared according to the NEET exam syllabus.The Test: Energy Stored in a Capacitor (NCERT) MCQs are made for NEET 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Energy Stored in a Capacitor (NCERT) below.
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Test: Energy Stored in a Capacitor (NCERT) - Question 1

A parallel plate capacitor is connected across a 2V battery and charged. The battery is then disconnected and a glass slab is introduced between plates. Which of the following pairs of quantities decreases?

Detailed Solution for Test: Energy Stored in a Capacitor (NCERT) - Question 1

When battery is disconnected, charge remains constant. On introducing glass slab, capacity increases, Potential difference and energy stored decreases.

Test: Energy Stored in a Capacitor (NCERT) - Question 2

A capacitor has some dielectric between its plates, and the capacitor is connected to a dc source. The battery is now disconnected and then the dielectric is removed, then

Detailed Solution for Test: Energy Stored in a Capacitor (NCERT) - Question 2

When the capacitor is connected to dc source, it gets charged. The battery is then disconnected, so no more charge can flow in. On removing dielectric capacitance decrease.
Energy stored (u = q2/2C) will increase.
Potential (V = q/C) will also increase.
Electric field (E = V/D) will increase.

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Test: Energy Stored in a Capacitor (NCERT) - Question 3

A capacitor of capacitance 700 pF is charged by 100 V battery. The electrostatic energy stored by the capacitor is

Detailed Solution for Test: Energy Stored in a Capacitor (NCERT) - Question 3

Here C = 700pF = 700 × 10−12F, V = 100V
Energy stored

Test: Energy Stored in a Capacitor (NCERT) - Question 4

A 16 pF capacitor is connected to 70 V supply. The amount of electric energy stored in the capacitor is

Detailed Solution for Test: Energy Stored in a Capacitor (NCERT) - Question 4

Here C = 16pF = 16 × 10−12FV = 80V

Test: Energy Stored in a Capacitor (NCERT) - Question 5

A capacitor is charged through a potential difference of 200 V, when 0.1 C charge is stored in it. The amount of energy released by it, when it is discharged is

Detailed Solution for Test: Energy Stored in a Capacitor (NCERT) - Question 5

Here, V = 200V, q = 0.1C
Energy stored,

When the capacitor is discharged, it releases the same amount of energy i.e., 10J

Test: Energy Stored in a Capacitor (NCERT) - Question 6

A parallel plate capacitor has a uniform electric field E in the space between the plates. If the distance between the plates is d and area of each plate is A, the energy stored in the capacitor is

Detailed Solution for Test: Energy Stored in a Capacitor (NCERT) - Question 6

Capacitance of a parallel plate capacitor is C = ε0A/d ………(i)
Potential difference between the plates is
V = Ed
The energy stored in the capacitor is

Test: Energy Stored in a Capacitor (NCERT) - Question 7

A metallic sphere of radius 18 cm has been given a charge of 5 × 10−6 C. The energy of the charged conductor is

Detailed Solution for Test: Energy Stored in a Capacitor (NCERT) - Question 7

Here r = 18cm = 18 × 10−2m, q = 5 × 10−6C

Energy of charged conductor is

Test: Energy Stored in a Capacitor (NCERT) - Question 8

Two spherical conductors each of capacity C are charged to potential V and − V. These are then connected by means of a fine wire. The loss of energy will be

Detailed Solution for Test: Energy Stored in a Capacitor (NCERT) - Question 8

Here, loss of energy

Test: Energy Stored in a Capacitor (NCERT) - Question 9

Two condensers, one of capacity C and other of capacity C/2 are connected to a V-volt battery, as shown in the figure. The work done in charging fully both the condensers is

Detailed Solution for Test: Energy Stored in a Capacitor (NCERT) - Question 9

As the capacitors are connected in parallel, therefore potential difference across both the condensors remains the same.


Work done in charging fully both the condensors is given by

Test: Energy Stored in a Capacitor (NCERT) - Question 10

A parallel plate condenser with a dielectric of dielectric constant K between the plates has a capacity C and is charged to a potential V volt. The dielectric slab is slowly removed from between the plates and then reinserted. The net work done by the system in this process is

Detailed Solution for Test: Energy Stored in a Capacitor (NCERT) - Question 10

The potential energy of a charged capacitor before removing the dielectric slat is U = Q2/2C.
The potential energy of the capacitor when the dielectric slat is first removed and the reinserted in the gap between the plates is U = Q2/2C
There is no change in potential energy, therefore work done is zero.

Test: Energy Stored in a Capacitor (NCERT) - Question 11

Two identical capacitors have the same capacitance C. One of them is charged to potential V1 and the other to V2. The negative ends of the capacitors are connected together. When the positive ends are also connected, the decrease in energy of the combined system is

Detailed Solution for Test: Energy Stored in a Capacitor (NCERT) - Question 11

Initial energy of the combined system

On joining the two condensers in parallel, common potential.

∴ Final energy of the combined system

Decrease in energy

Test: Energy Stored in a Capacitor (NCERT) - Question 12

Energy stored in a capacitor and dissipated during charging a capacitor bear a ratio.

Detailed Solution for Test: Energy Stored in a Capacitor (NCERT) - Question 12

Half of the energy is dissipated during charging a capacitor.

Test: Energy Stored in a Capacitor (NCERT) - Question 13

Two capacitors, 3μF and 4μF, are individually charged across a 6V6V battery. After being disconnected from the battery, they are connected together with the negative plate of one attached to the positive plate of the other. What is the final total energy stored

Detailed Solution for Test: Energy Stored in a Capacitor (NCERT) - Question 13

image
As Q = CV
∴ Initially the charge on each capacitor is
Q1 = C1V1 = (3μF)(6V) = 18μC
and Q2 = C2V2 = (4μF)(6V) = 24μC
When two capacitors is are joined to each other such that negative plate of one is attached with the positive plate of the other. The charges Q1 and Q2 are redistributed till they attain the common potential which is given by.
image
Common potential V = Total Charge/Total capacitance

Final energy stored,

Test: Energy Stored in a Capacitor (NCERT) - Question 14

A parallel plate capacitor without any dielectric within its plates, has a capacitance C, and is connected to a battery of emf V. The battery is disconnected and the plates of the capacitor are pulled apart until the separation between the plates is doubled. What is the work done by the agent pulling the plates apart, in this process?

Detailed Solution for Test: Energy Stored in a Capacitor (NCERT) - Question 14

Capacitance of a parallel plate capacitor is C = ε0A/d ……(i)
where A is the area of each plate and d is the distance between the plates. Initial energy stored in the capacitor,

When the separation between the plates is doubled , its capcaitance becomes

As the bettary is disconnected , so charged capacitor becomes isolated and charge on it will reamain constant ,
∴ Q = Q
C'V = C'V (AsQ = CV)

Final energy stored in the capacitor ,

Required work done,

Test: Energy Stored in a Capacitor (NCERT) - Question 15

A series combination of n1, capacitors, each of value C1, is charged by a source of potential difference 4V. When another parallel combination of n2, capacitors, each of value C2, is charged by a source of potential difference V, it has the same (total) energy stored in it, as the first combination has. The value of C2, in terms of C1 is then

Detailed Solution for Test: Energy Stored in a Capacitor (NCERT) - Question 15


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