CBSE class 12 board examination will be start in the first week of March very minimum days are left for the final examination and ended situation if the students get of the important questions they are too much helpful there for them so in the below article we are providing all the important questions for Physics of minimum 2 marks for the preparation so go slowly through them to get better marks for the final examination

**Some Important Questions for Physics of 2 Marks**

@: (i) How are eddy currents reduced in a metallic core?

(ii) Give two uses of eddy currents.

@: A wire of length L is bent round in the form of a coil having N turns of same radius. If a steady current I flows through it in a clockwise direction, find the magnitude and direction of the magnetic field produced at its centre.

@: How does a charge q oscillating at certain frequency produce electromagnetic waves

@: Using Ampere’s circuital law, derive an expression for the magnetic field along the axis of a toroidal solenoid.

@: Define the term: magnetic dipole moment of a current loop. Write the expression for the magnetic moment when an electron revolves at a speed ‘v’, around an orbit of radius ‘r’ in hydrogen atom.

@: Obtain the expression for the mutual inductance of a pair of coaxial circular coils of radii r and

R (R > r) placed with their centers coinciding.

@: Derive an expression for the impedance of an a.c. circuit consisting of an inductor and a resistor.

@: Define magnetic susceptibility of a material. Name two elements, one having positive susceptibility and the other having negative susceptibility. What does negative susceptibility signify ?

@: Deduce the expression for the magnetic dipole moment of an electron orbiting around the central nucleus.

@: Draw magnetic field lines when a (i) diamagnetic, (ii) paramagnetic substance is placed in an external magnetic field. Which magnetic property distinguishes this behaviour of the field lines due to the two substances?

@: (i) Write two characteristics of a material used for making permanent magnets.

(ii) Why is core of an electromagnet made of ferromagnetic materials?

@: Define magnetic susceptibility of a material. Name two elements, one having positive susceptibility and the other having negative susceptibility. What does negative susceptibility signify?

@: Draw a sketch of a plane electromagnetic wave propagating along the z-direction. Depict clearly the directions of electric and magnetic fields varying sinusoidally with z.

@: The oscillating magnetic field in a plane electromagnetic wave is given by

By = (8 × 10̶ 6) sin [2 × 1011 t + 300πx] T

(i) Calculate the wavelength of the electromagnetic wave.

(ii) Write down the expression for the oscillating electric field.

@: Draw a ray diagram of a compound microscope. Write the expression for its magnifying power.

@: How will the angular separation and visibility of fringes in Young’s double slit experiment change when (i) screen is moved away from the plane of the slits, and (ii) width of the source slit is increased?

@: What is meant by the transverse nature of electromagnetic waves? Draw a diagram showing the propagation of an electromagnetic wave along the x-direction, indicating clearly the directions of the oscillating electric and magnetic fields associated with it.

@: State the law of radioactive decay. If N is the number of radioactive nuclei in the sample at some initial time, t, find out the relation to determine the number N present at a subsequent time. Draw a plot of N as a function of time.

@: Derive an expression for drift velocity of free electrons in a conductor in terms of relaxation time.

@: Sketch a schematic diagram depicting electric and magnetic fields for an electromagnetic wave propagating along the Z-direction.

@: Define the term ‘linearly polarised light’.

@: When does the intensity of transmitted light become maximum, when a polaroid sheet is rotated between two crossed polaroids?

@: A wire of 15 W resistance is gradually stretched to double its original length. It is then cut into two equal parts. These parts are then connected in parallel across a 3 × 0 volt battery. Find the current drawn from the battery.

@: Write two factors justifying the need of modulation for transmission of a signal.

@: Name the electromagnetic radiations having the wavelength range from 1 mm to 700 nm.

Give its two important applications.

@: Derive an expression for the de-Broglie wavelength associated with an electron accelerated through a potential V. Draw a schematic diagram of a localised-wave describing the wave nature of the moving electron.

@: Draw the circuit diagram of an illuminated photodiode in reverse bias. How is photodiode used to measure light intensity?

@: (a) The bluish colour predominates in clear sky.

(b) Violet colour is seen at the bottom of the spectrum when white light is dispersed by a prism. State reason to explain these observations.

@: (i) Why does the Sun appear reddish at sunset or sunrise?

(ii) For which colour the refractive index of prism material is maximum and minimum

@: A biconvex lens has a focal length 2/3 times the radius of curvature of either surface. Calculate the refractive index of lens material.

@: Find the radius of curvature of the convex surface of a plano-convex lens, whose focal length is 0.3 m and the refractive index of the material of the lens is 1.5.

@: (i) Out of blue and red light which is deviated more by a prism? Give reason.

(ii) Give the formula that can be used to determine refractive index of material of a prism in minimum deviation condition

@: The radii of curvature of the faces of a double convex lens are 10 cm and 15 cm. If focal length of the lens is 12 cm, find the refractive index of the material of the lens.

@: (i) State the principle on which the working of an optical fiber is based.

(ii) What are the necessary conditions for this phenomenon to occur?

@: Define refractive index of a transparent medium.

A ray of light passes through a triangular prism. Plot a graph showing the variation of the angle of deviation with the angle of incidence.

@: A ray of light passing through an equilateral triangular glass prism from air undergoes minimum deviation when angle of incidence is 3/4th of the angle of prism. Calculate the speed of light in the prism.

@: Draw a ray diagram of a reflecting type telescope. State two advantages of this telescope over a refracting telescope.

@: A heavy nucleus X of mass number 240 and binding energy per nucleon 7.6 MeV is split into two fragments Y and Z of mass numbers 110 and 130. The binding energy of nucleons in Y and Z is 8.5 MeV per nucleon. Calculate the energy Q released per fission in MeV.

@: An electron is accelerated through a potential difference of 100 volts. What is the de-Broglie wavelength associated with it? To which part of the electromagnetic spectrum does this value of wavelength correspond?

@: (a) The mass of a nucleus in its ground state is always less than the total mass of its constituents – neutrons and protons. Explain.

(b) Plot a graph showing the variation of potential energy of a pair of nucleons as a function of their separation.

@: Draw the circuit diagram of an illuminated photodiode in reverse bias. How is photodiode used to measure light intensity?

@: An electron is accelerated through a potential difference of 64 volts. What is the de-Broglie wavelength associated with it? To which part of the electromagnetic spectrum does this value of wavelength correspond?

@: Distinguish between an intrinsic semiconductor and P-type semiconductor. Give reason, why a

P-type semiconductor crystal is electrically neutral, although nh >> ne?

@: Define ionization energy. How would the ionization energy change when electron in hydrogen atom is replaced by a particle of mass 200 times that of the electron but having the same charge?

@: Calculate the shortest wavelength of the spectral lines emitted in Balmer series.

[Given: Rydberd constant, R = 107: m‒1]

@: Calculate the de-Broglie wavelength of the electron orbiting in the n = 2 state of hydrogen atom.

@: Define modulation index. Why is it kept low?

@: State the concept of mobile telephony and explain its working.

@: Explain the function of a repeater in a communication system.

@: Why do we need carrier waves of very high frequency in the modulation of signals? A carrier wave of peak voltage 20 V is used to transmit a message signal. What should be the peak voltage of the modulating signal, in order to have a modulation index of 80%?

@: By what percentage will the transmission range of a T.V. tower be affected when the height of the tower is increased by 21 %?

@: Prove that an ideal capacitor, in an a.c. circuit does not dissipate power.

@: Obtain the expression for the potential energy of an electric dipole of dipole moment P placed in an electric field E.

@: A cell of emf ‘E’ and internal resistance ‘r’ is connected across a variable resistor ‘R’. Plot a graph showing the variation of terminal potential ‘V’ with resistance R. Predict from the graph the condition under which ‘V’ becomes equal to ‘E‘.

@: (i) Can two equipotential surfaces intersect each other? Give reasons.

(ii) Two charges -q and + q are located at points A (0, 0, – a) and B (0, 0, + a) respectively. How much work is done in moving a test charge from point P (7, 0, 0) to Q (-3, 0, 0)?

@: Draw 3 equipotential surfaces corresponding to a field that uniformly increases in magnitude but remains constant along Z-direction. How are these surfaces different from that of a constant electric field along Z-direction? 2

@: Define electric flux. Write its S.I. units.

@: (i) How are infrared waves produced? Write their one important use.

(ii) The thin Ozone layer on top of the stratosphere is crucial for human survival. Why?

@: Derive the expression for the electric potential at any point along the axial line of an electric dipole?

@: Draw magnetic field lines when a (i) diamagnetic, (ii) paramagnetic substance is placed in an external magnetic field. Which magnetic property distinguishes this behaviour of the field lines due to the two substances?

@: (i) Write two characteristics of a material used for making permanent magnets.

(ii) Why is core of an electromagnet made of ferromagnetic materials?

@: Write the function of (i) Transducer and (ii) Repeater in the context of communication system.

@: (i) What is the line of sight communication?

(ii) Why is it not possible to use sky wave propagation for transmission of TV signals?

@: What is the range of frequencies used for T.V. transmission? What is common between these waves and light waves?

@: What is the range of frequencies used in satellite communication? What is common between these waves and light waves?

@: If the output of a 2 input NOR gate is fed as both inputs A and B to another NOR gate, write down a truth table to find the final output, for all combinations of A, B.@: A charge q is enclosed by a spherical surface of radius R. If the radius if reduced to half, how would the electric flux through the surface change..

@: Derive an expression for the work done in rotating a dipole from the angle ϕ to ϕo in a uniform electric field E.

*Please Subscribe Us to get latest important notifications, Exam news, Papers and Many More…*

[formidable id=”2″ title=”1″]