| 1 |
When a dielectric material is placed in an electric field it |
Conducts
Exhibits an electrical discharge
Become polarized
Undergoes electrolysis
|
| 2 |
The energy supplied in charging a capacitor resides after the charging in. |
The magnetic field
The electric field
the battery
The moving conduction charges
|
| 3 |
A radio tuning capacitor is. |
Cylindrical capacitor
Spherical capacitor
parallel plates capacitor
Cylindrical condenser
|
| 4 |
A wire surrounded by a concentric cylindrical metal shield constitutes a. |
Spherical capacitor
Parallel plate capacitor
Cylindrical capacitor
Cylindrical condenser
|
| 5 |
For capacitors connected is series. |
The difference of potential is same for an
The charge on each is the same
The resultant capacitance is greater than
The charge on each is not the same
|
| 6 |
if two conductors in the same vicinity each possess one coulomb of charge of opposite sign when one volt potential difference in established between them we may say they possess |
A capacitance of one henry
An inductance of one henry
An impedance of one ohm
A capacitance of one farad
|
| 7 |
The ratio of the magnitude of charge on one of the two conductors in proximity to the potential difference between the two is called. |
Inductance
Reactance
Resistance
Capacitance
|
| 8 |
The charge per unit volt which is a constant property of the system is known as the |
Dielectric constant
Permitivity
Capactance
Inductance
|
| 9 |
On which of the following parameters capacitance does not depend upon. |
Area of the plates
Medium between the plates
Distance between the plates
Nature of material for plates
|
| 10 |
A wire of 5 m length carries a steady current if the field inside it is 0.2 v m-1 then the potential difference will be. |
0.1 V
0.5 V
1 V
5 V
|
| 11 |
A system of the equal and opposite point charges separated by a small distance is called. |
A capacitor
A dipole
An iinductor
A di electric
|
| 12 |
The negative of the potential gradient is |
Potential energy
Electrostatic force
Electric field intensity
Electromotive force
|
| 13 |
Equipotential surfaces in an electric field are always. |
Spherical
Closed surfaces
Tangent to electric lines of force
Perpendicular to electric lines of force
|
| 14 |
One volt is equal to. |
One joule per coulomb
One dyne per coulomb
One newton per coulomb
One watt second
|
| 15 |
An other name for electric P.E per unit charge is. |
Electric intensity
Electric field
Electric potential
Electric force
|
| 16 |
If work must be done by an outside agent attempting tobring two point charges close together. |
They are of opposite signs
The field is not conservative
The work is recoverable when they separate
The P.E. of the charges is reduced by the amount of the work done
|
| 17 |
The work done is moving a very small charge in an electric field from one point to another is |
Independent of the path
Equal to the potential difference between the two points.
Measured in V m-1
Measured in J c-1
|
| 18 |
Gauss's law a most useful in cases where the charge distributions. |
Are made up of discrete point charges
Are finite in their spatial extent
Give rise to inverse square law fields
Posses a certain amount of symmetry
|
| 19 |
A number of spherical capacitors of different radii have same potentials The surface charge density on them |
I equal
Is proportional to their radii
Is inversely proportional to their radii
Is inversely proportional to square of their radii
|
| 20 |
A capacitor is connected to a battery The fore of attraction between the plate when the separation between them is halved will |
Remain the same
Become twice
Become 4 times
Become 8 times
|
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