plz any one i am abit confused can you answer these questions thx

05. The space surrounding a charge within which the influence of its charge extends is known as.
(a) Electric field (b) Magnetic field
(c) Line of force (d) Electric intensity

06. A region around a stationary electric charge has.
(a) Electric field (b) Magnetic field
(c) Both electric and magnetic fields. (d) Neither electric nor magnetic field.
04. When an uncharged body is placed near a charged body.
(a) Then uncharged body is attracted first and then charged by induction.
(b) Get charged by induction and then attracted towards the charging body.
(c) Gets charged by conduction.
(d) Remains as such

03. The phenomenon of an uncharged body getting charged merely by nearness of a charged body is called the.
(a) Induction (b) Attraction
(c) Magnetic effect, (d) Chemical effect.

02. If the distance between two electric charges is doubled, the force experienced between them will be.
(a) One-fourth (b) Half
(c) Double (d) four-time

01. Changes of equal magnitude are separated by some distance. If the changes are in creased by 10% to get the same force between them their separation must be.
(a) Increase by 21% (b) Increase by 10%
(c) Decreased by 10% (d) None of the above is correct well i think its 10% but any help would be great

07. The number of tubs of force passing through a surface in an electric filed is known as.
(a) Electric charge density (b) Electric flux density
(c) Electric flux (d) Magnetic flux

11. Electric potential at a point situated at a distance ‘d’ from a point charge varies as.
(a) D2 (b) 1/d
(c) 1/d2 (d) d

12. The potential inside a charged hollow sphere is.
(a) Zero (b) Same as that on the surface.
(c) Less than that on the surface (d) None of the above

13. Voltage applied across a glass dielectric produces an electric field 10 time of that of air. The dielectric constant for glass is.
(a) 0.1 (b) 10
(c) 100 (d) 0.01

14. The relation between electric intensity E voltage applied V and distance d between the plates of a parallel plate condenser is.
(a) £=£ (b) E=Vxcl.
(c) E=Zr- (d) £=Fxc/²

15. A capacitor consists of two.
(a) Conductors separated by an insulator called the dielectric.
(b) Insulators separated by a conductor.
(c) Insulators separated by a dielectric.
(d) Conductors separated by air medium only
16. In a capacitor, the electric charge is stored
(a) Metal plates. (b) Dielectric
(c) Both (a) & (b) (d) None of these.

17. If the dielectric of a capacitor is replaced by a conducting material the.
(a) Capacitor will get heated up owing to eddy currents.
(b) Plats will get short-circuited
(c) Capacitor can store infinite charge
(d) Capacitor will become very high

18. The total excess or deficiency of electrons in a body is called the.
(a) Current (b) Voltage
(c) Charge (d) Potential gradient

19. The charge on an isolated conductor resides.
(a) At the conductor surface. (b) Inside the conductor
(c) Partly at the surface and party inside the conductor.
(e) None of the above

20. The capacitance of a parallel plate capacitor is not affected by
(a) Are of plates (b) Thickness of plates.
(c) Separation between plates (d) Nature of dielectric.

21. Capacitance of a parallel plate capacitor in creases with.
(a) Increase in plate area and decrease in separation between plates.
(b) Increase in plate area and in separation between plates.
(c) Decrease in plate area and in separation between the plates.
(d) Decrease in plate area and increase in applied voltage.

22. A parallel plate capacitor has capacitance of 10 uF. If the linear dimensions of the plates are doubled and the separation between them is also doubled the value of the capacitor would be.
(a) 10 u F. (b) 20 u F
(c) 5 u F (d) 40 u F

23. The property of a material which opposes the production of magnetic flux in it is known.
(a) Mmf (b) Reluctance
(c) Permeance (d) Permittivity

24. The capacitance of a cylindrical capacitor is given as length, keeping the volume constant. The new resistance will be
(a) R/9 (b) R/3
(c) 9R (d) 3R

25. The wire is stretched to its double the length. The new resistance will be.
(a) 4-time the original resistance. (b) Double the original resistance
(c) Half the original resistance (d) One-fourth of the original resistance.

26. A length of wire having a resistance of 1 ft is cut into four equal parts and these four part are bundled together side by side to form a wire the new resistance will be.
(a) ¼ Q (b) 1/16 a.
(c) 4 a (d) 16 a

27. The resistance between the opposite faces of lm cube is found to be lft. If its length is increased to 2m, with its volume remaining the same then its resistance between the opposite face along its length is.
(a) 2 ft. (b) 4 ft
(c) 1 ft (d) 8 ft

28.A wire of length / and of circular cross-section of radius r has a resistance of R ohms. Another wire of same material and of x-sectional radius 2 r will have the same R if the length is.
(a) 2 l (b) l l l
(c) 4 l (d) l 2

29. If the diameter of the wire is halved its current carrying capacity will become about.
(a) One-fourth (b) Half
(c) Twice (d) Four-time

30. Specific resistance of a conductor depends upon.
(a) Dimensions of the conductor.
(b) Composition of conductor material
(c) Resistance of the conductor
(d) Resistance of the conductor

31. Temperature coefficient of resistance is defined as.
(a) Increase in resistance per ohm per 0 C
(b) Increase in resistance per o C
(c) Decrease in resistance per o C
(d) The ratio of decrease in resistance per o C

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