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what will be the voltage around BC in given figure? [https://l
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what will be the voltage around BC in given figure? Combination of capacitors

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Updated on: Aug 6, 2023

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Master Resource Book in JEE Main Physics (Arihant)

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Practice questions from Master Resource Book in JEE Main Physics (Arihant)

Question 1
Medium
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Two metallic spheres and of same radii one solid and other hollow are charged to the same potential. Which of the two will hold more charge?
  1. Sphere
  2. Sphere
  3. Both spheres
  4. None of these
Topic

Topic:

Electrostatic Potential and Capacitance

Book

Book:

Master Resource Book in JEE Main Physics (Arihant)

View 3 solutions

Question 2
Medium
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Views: 5,498

The equivalent capacitance of the combination of three capacitors, each of capacitance shown in figure between points and is
Topic

Topic:

Electrostatic Potential and Capacitance

Book

Book:

Master Resource Book in JEE Main Physics (Arihant)

View 3 solutions

Question 3
Hard
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Views: 5,805

A small sphere carrying a charge is hanging in between two parallel plates by a string of lenght . Time period of pendulum is . When parallel plates are charged, the time period changes to . The ratio of is equal to
  4. None of these
Topic

Topic:

Electrostatic Potential and Capacitance

Book

Book:

Master Resource Book in JEE Main Physics (Arihant)

View 2 solutions

Question 4
Medium
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Views: 5,295

In the circuit shown in figure, initially key is closed and key is open. Then is opened and is closed (order is important). Take and as charges on and and and as voltage respectively.
  1. charge on gets redistributed such that
  2. charge on gets redistributed such that
  3. charge on gets redistributed such that
  4. charge on gets redistributed such that
Topic

Topic:

Electrostatic Potential and Capacitance

Book

Book:

Master Resource Book in JEE Main Physics (Arihant)

View 2 solutions

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Practice more questions from Electrostatic Potential and Capacitance

Question 1
Easy
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Views: 5,298

The figure shows a network of five capacitors connected to a 100 V supply. Calculate the total energy stored in the network.
Topic

Topic:

Electrostatic Potential and Capacitance

Exam

Exam:

Class 12th Board 2019

View 7 solutions

Question 2
Medium
Views

Views: 5,441

A capacitor of capacity is charged to a potential difference and another capacitor of capacity is charged to a potential difference . The charging batteries are disconnected and the two capacitors are connected with reverse polarity to each other in parallel. The heat produced during the redistribution of charge between the capacitors will be :
Topic

Topic:

Electrostatic Potential and Capacitance

Book

Book:

Physics Galaxy Electrostatics and Current Electricity Vol 3 A (Ashish Arora)

View solution

Question 3
Easy
Views

Views: 6,025

A capacitor in a defibrillator is charged to . The energy stored in the capacitor is sent through the patient during a pulse of duration . The power delivered to the patient is
Topic

Topic:

Electrostatic Potential and Capacitance

Book

Book:

Electrostatics (Disha)

View 10 solutions

Question 4
Medium
Views

Views: 5,403

Figure shows three concentric spherical conducting shells A, B, and C of radii and respectively. A and are connected by a conducting wire and is given charge Match the following columns :

Topic

Topic:

Electrostatic Potential and Capacitance

Book

Book:

Electrostatics (Disha)

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Practice questions on similar concepts asked by Filo students

Question 1
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Please provide short answers to the following: a) What are the definitions of i) work and ii) power? If a person carries a weight of 20 pounds up a flight of stairs 300 ft high (vertical distance) in 5 minutes, calculate the work done and power for the activity. (2+2+4 pts) The magnitude of work done equals the product of the net force on the object and the distance traveled by the object in the direction of the force. Mathematically, work (W) is defined as: W = F * d Work, W, is a scalar quantity. Power is the rate of doing work and is defined as: P = W / t Where W is the work done and t is the time. Given that 20 lbs = 9.074 kg, 300 ft = 91.44 m, and 5 minutes = 300 s, and assuming g = 9.8 m/s^2, we can calculate the work done as: W = 9.074 * 9.8 * 91.44 J P = W / 300 watts b) A ball is sitting still as observed by a person on the train and it is free to roll in the direction of the train and opposite to the train. Explain what happens to the ball when the train comes to a sudden stop? Why does this happen? (2+2 pts) The ball rolls forward due to its inertia. The law of inertia states that a body with constant linear velocity will continue to do so unless acted upon by an external force. c) Draw a free body diagram (show all the forces with their magnitudes, their components along the ramp, and perpendicular to the ramp) when a block of mass M is placed on a ramp that is at an angle to the horizontal. The coefficient of friction between the block and the ramp surface is . (10 pts) [Diagram] Show the force of gravity and its components, normal force N, and force of friction N opposing the motion. d) Is energy conserved? Why? Give an example. (1+1+1 pts) Yes, it is observed so. When an object falls a distance h starting from rest, it loses gravitational potential energy mgh and gains kinetic energy (1/2)mv^2.
Topic

Topic:

Physics

View solution

Question 2
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Views: 5,756

The mass of a string is 5.0 103 kg, and it is stretched so that the tension in it is 180 N. A transverse wave traveling on this string has a frequency of 260 Hz and a wavelength of 0.60 m. What is the length of the string?
Topic

Topic:

Physics

View solution

Question 3
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Views: 5,775

. With reference to the illustration. If block is slightly disturbed then find the tangential acceleration of block just when it leaves the hemisphere.
Topic

Topic:

Mechanics

View solution

Question 4
Views

Views: 5,242

a. Calculate the applied force required to move the bar to the left at a constant speed of 6 m/s. Assume the bar and rails have negligible resistance and friction. Neglect the mass of the bar. Answer in units of N. b. At what rate is energy dissipated in the resistor? Answer in units of W. In the arrangement shown in the figure, the resistor is 7 Ω and a 9 T magnetic field is directed out of the paper. The separation between the rails is 6 m. An applied force moves the bar to the left at a constant speed of 6 m/s.
Topic

Topic:

Physics

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Question Text
what will be the voltage around BC in given figure?
Updated OnAug 6, 2023
TopicElectrostatic Potential and Capacitance
SubjectPhysics
ClassClass 12
Answer TypeText solution:1 Video solution: 10
Upvotes1127
Avg. Video Duration8 min