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Distinguish between Nanoscience and Nanotechnology.
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What is the difference between Nano materials and Bulk materials?
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Give any two examples for “Nano” in nature.
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What are black holes?
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What are subatomic particles?
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Discuss the applications of Nanomaterials in various fields.
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What are the possible harmful effects of the usage of Nanoparticles? Why?
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What is electric power?
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What is electric energy?
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Derive the expression for power P = VI in electrical circuit.
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Write down the various forms of expression for power in electrical circuit.
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Four light bulbs P, Q, R, S are connected in a circuit of unknown arrangement. When each bulb is removed one at a time and replaced, the following behavior is observed.
| P | Q | R | S | |
| P removed | * | on | on | on |
| Q removed | on | * | on | off |
| R removed | off | off | * | off |
| S removed | on | off | on | * |
Draw the circuit diagram for these bulbs.
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A particle having mass m and charge q accelerated through a potential difference V. Find the force experienced when it is kept under perpendicular magnetic field B is
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Two identical coils, each with N turns and radius R are placed coaxially at a distance R as shown in the figure. If I is the current passing through the loops in the same direction, then the magnetic field at a point P which is at exactly at `"R"/2` distance between two coils is-
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A bar magnet of length l and magnetic moment pm is bent in the form of an arc as shown in figure. The new magnetic dipole moment will be-
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A flat dielectric disc of radius R carries an excess charge on its surface. The surface charge density is σ. The disc rotates about an axis perpendicular to its plane passing through the centre with angular velocity ω. Find the magnitude of the torque on the disc if it is placed in a uniform magnetic field whose strength is B which is directed perpendicular to the axis of rotation
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The potential energy òf magnetic dipole whose dipole moment is `vec"p"_"m" = (- 0.5 hat"i" + 0.4 hat"j")"Am"^2` kept in uniform magnetic field `vec"B" = 0.2hat"i"`T
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Why is the path of a charged particle not a circle when its velocity is not perpendicular to the magnetic field?
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A circular coil with a cross-sectional area 0.1 cm2 is kept in a uniform magnetic field of strength 0.2 T. If the current passing in the coil is 3 A and the plane of the loop is perpendicular to the direction of a magnetic field. Calculate
- total torque on the coil
- total force on the coil
- average force on each electron in the coil due to the magnetic field. (The free electron density for the material of the wire is 1028 m-3).
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