NCERT (ES)

Advice from Bharali sir:

You should always study the NCERT textbook thoroughly. The whole syllabus is covered in this book in a concise manner. The concerned authorities have also kept the cost of the book quite low.

Class XII : NCERT book : Chapter 1 : Exercises

1.1)             What is the force between two small charged spheres having charges of 2x10-7 C and 3x10-7 C placed 30 cm apart in air?

1.2)            The electrostatics force on a small sphere of charge 0.4 μC due to another small sphere of charge -0.8 μC in air is 0.2 N.

a) What is the distance between the two spheres?

b) What is the force on the second sphere due to the first?

1.3)            Check that the ratio ke2/G me mP is dimensionless. Look up a table of Physical Constants and determine the value of this ratio. What does the ratio signify?

1.4)            a) Explain the meaning of the statement ‘electric charge on a body is quantized.’

b) Why can one ignore quantisation of electric charge when dealing with macroscopic i.e. large scale charges?

1.5)            When a glass rod is rubbed with a silk cloth, charges appear on both. A similar phenomenon is observed with many other pairs of bodies. Explain how this observation is consistent with the law of conversation of charge.

1.6)            Four point charges qA = 2μC, qB= -5μC, qc= 2μC and qD= -5 μC are located at the corners of a square ABCD of side 10 cm. What is the force on a charge of 1μC placed at the centre of the square?

 

1.7)            (a) An electrostatic field line is a continuous curve. That is a field line cannot have sudden breaks. Why not?

(b) Explain why two field lines never cross each other at any point?

1.8)            Two point charges qA = 3μC and qB= -3 μC are located 20 cm apart in vacuum.

a) What is the electric field at the midpoint O of the line AB joining the two charges?

b) If a negative test charge of magnitude 1.5x10-9 C is placed at this point, what is the force experienced by the test charge?
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1.9)            A system has two charges qA= 2.5 X10-7 C and qB= -2.5 10-7 C located at points A: (0,0, - 15 cm) and B: (0,0, +15 cm] respectively. What are the total charge and electric dipole moment of the system?

1.10)       An electric dipole with dipole moment 4x10-9 C m is aligned at 30° with the direction of a uniform electric field of magnitude 5x104 NC-1. Calculate the magnitude of the torque acting on the dipole.

1.11)         A polythene piece rubbed with wool is found to have a negative charge of 3x10-7 C.

(a) Estimate the number of electrons transferred (from which to which?)

(b) Is there a transfer of mass from wool to polythene?

1.12) (a) Two insulated charged copper spheres A and B have their centres separated by a distance of 50 cm. What is the mutual force of electrostatics repulsion if the charge on each is 6.5 x10-7 C? The radii of A and B are negligible compared to the distance of separation.

(b) What is the force of repulsion if each sphere is charged double the above amount and the distance between them is halved?

1.13) Suppose the spheres A and B in Exercise 1.12 have identical sizes. A third sphere of the same size but uncharged is brought in contact with the first, then brought in contact with the second and finally removed from both. What is the new force of repulsion between A and B?

1.14) Figure shows tracks of three charged particles in a uniform electrostatic field. Give the signs of the three charges. Which particle has the highest charge to mass ratio?

 

1.15) Consider a uniform electric field E= 3x103  N/C in x-direction.

(a) What is the flux of this field through a square of 10 cm on a side whose plane is parallel to the yz plane?

(b) What is the flux through the same square if the normal to its plane makes a 60° angle with the x-axis?
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1.16) What is the net flux of the uniform electric field of exercise 1.15 through a cube of side 20cm oriented so that its faces are parallel to the coordinate planes?

1.17) Careful measurement of the electric field at the surface of a black box indicates that the net outward flux through the surface of the box is 8.0x103 Nm2/c.

(a) what is the net charge inside the box?

(b) if the net outward flux through the surface of the box were zero, could you conclude that there were no charges inside the box? Why or why not?

1.18) A point charge +10 μC is at a distance 5 cm directly above the centre of a square of side 10 cm. What is the magnitude of the electric flux through the square? [Hint: Think of the square as one face of a cube with edge 10cm]

1.19) A point charge of 2.0 μC is at the centre of a cubic Gaussian surface 9.0 cm on edge. What is the net electric flux through the surface?

1.20) A point charge causes an electric flux of -1.0x103 Nm2/C to pass through a spherical Gaussian surface of 10.0 cm radius centred on the charge.

(a) If the radius of the Gaussian surface were doubled, how much flux would pass through the surface?

(b) What is the value of the point charge?

1.21) A conducting sphere of radius 10 cm has an unknown charge. If the electric field 20 cm from the centre of the sphere is 1.5x103 N/C and points radially inward, what is the net charge on the sphere?

1.22) A uniformly charged conducting sphere of 2.4 m diameter has a surface charge density of 80.0 μC/m2.

(a) Find the charge on the sphere.

(b) What is the total electric flux leaving the surface of the sphere?
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1.23) An infinite line charge produces a field of 9x104 N/c at a distance of 2 cm. Calculate the linear charge density.

1.24) Two large, thin metal plates are parallel and close to each other. On their inner faces the plates have surface charge densities of opposite signs and of magnitude 17.0x10-22 C/m2. What is Electric field,

(a) in the outer region of the first plate,

(b) in the outer region of the second plate

and (c) between the plates?

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