| 1 |
Lorentz force is defined as |
q(E + V x B)
q(E x B + V)
q(E x V + B)
q(E x B)
|
| 2 |
The force experienced by charged particle is maximum, if it moves |
parallel to magnetic field
perpendicular to magnetic field
opposite to the magnetic field
none of these
|
| 3 |
41 The force experience, when proton projected in a magnetic field with velocity 'v' is |
+e(v x B)
-C(V x B)
+e<sup>2</sup>(v x B)
-e(v<sup>2</sup>x B)
|
| 4 |
The force experienced by an electron projected in a magnetic field B with a velocity V is given by |
F=e(V x B)
F= -e(V x B)
F= e(B x V)
Both a and c
|
| 5 |
The force experienced by a single charge carrier moving with velocity 'v' i magnetic field of strength 'B' is given by |
F =q(v/B)
F=q<sup>2</sup>(v x B)
F=q(v x B)
F= vx B
|
| 6 |
When current passes through a solenoid coil, it behaves like a |
loop
circle
bar magnet
none of these
|
| 7 |
The strength of magnetic field around the current conductor is |
Smaller near the conductor
Greater near the conductor
Greater at the large distance from the conductor
Constant near and away from the conductor
|
| 8 |
The magnetic field outside the solenoid due to current is |
strong
zero
weak
uniform
|
| 9 |
Which one of the following relations is correct? |
1 Wb-m<sup>2</sup>= Nm<sup>-1</sup>A<sup>-1</sup>
1 tesla = 104 gausses
1 Wb-m<sup>2</sup>= 1 tesla
All of the above
|
| 10 |
The magnetic field in the middle of a solenoid due to current is |
weak
strong and uniform
none-uniform
zero
|
| 11 |
The SI unit of magnetic permeability is |
WB A<sup>-1</sup>m<sup>-1</sup>
WB mA<sup>-1</sup>
WB Am<sup>-1</sup>
None of these
|
| 12 |
Tesla is the unit of |
Magnetic induction or flux density
Magnetic flux
Self inductance
None of these
|
| 13 |
The SI unit of flux density is. |
Tesla
Weber
Gaun
Weber/meter
|
| 14 |
The unit of flux density is also given by |
Weber/m<sup>2</sup>or Wb . m<sup>-2</sup>
Weber/mor Wb . m
Weber/mor Wb . m<sup>-1</sup>
Weber or Wb
|
| 15 |
The SI unit of flux density is |
Newton/Amp-meter
Newton-m/Ampere
Newton-m/Amp<sup>2</sup>
Newton-Amp/meter
|
| 16 |
The straight current carrying conductor experiences maximum force in a uniform magnetic field when it is placed |
parallel to the field
Perpendicular to the field
At an angle of 45 to the field
None of the above
|
| 17 |
The SI unit of magnetic flux is. |
weber
Nm<sup>-1</sup>A<sup>-1</sup>
tesla
gauss
|
| 18 |
The total number of lines of magnetic induction pasing through a surface perpendicular to the magnetic field is called |
magnetic flux
magnetic flux density
magnetic induction
magnetic field intensity
|
| 19 |
The unit of magnetic flux is |
Weber-m<sup>2</sup>
Weber-m<sup>3</sup>
Henry
Weber
|
| 20 |
Weber is a unit of |
magnetic flux
magnetic filed intensity
magnetic induction
magnetic flux density
|
| 21 |
Magnetic flux and flux density are related by |
Flux density = flux x area
Flux density = flux / area
Flux density = flux - area
None of these
|
| 22 |
The SI unit of magnetic flux is |
NmA<sup>-2</sup>
NmA<sup>-1</sup>
NAm<sup>-1</sup>
Nm<sup>2</sup>A<sup>-1</sup>
|
| 23 |
If current through conductor is 1 A and length of conductor is 1m placed at right angle to the magnetic field, then the strength of magnetic field is |
F = B<sup>2</sup>
F = 0
F = B
F = B/2
|
| 24 |
The force exerted on a conductor of length L, carrying current I when placed in a magnetic field B is given by |
F=IB/L
F= L x B/I
F = IL x B
F = IL . B
|
| 25 |
The SI unit of magnetic induction is |
Gauses
Tesla
Weber
Weber<sup>2</sup>
|
| 26 |
A relationship between Gauses of magnetic induction and Tesla(T) is given by |
G 10<sup>-3</sup>T
G = 10<sup>-2</sup>T
G = 10<sup>-4</sup>T
G = 10<sup>-1</sup>T
|
| 27 |
A meter wire carraying a current of 2A is at right angle to the uniform magnetic field of 0.5 Weber/m2The force on the wire is |
5N
4N
1.5N
6N
|
| 28 |
The SI unit of magnetic induction is tesla which is equal to |
Newton/ampere-meter or N/A-m
Newton/ampere<sup>2</sup>-meter or N/A<sup>2</sup>-m
Newton/ampere<sup>2</sup>-meter<sup>2</sup> or N/A<sup>2</sup>-m<sup>2</sup>
Newton/ampere<sup>2</sup>-meter<sup>2</sup>or N/A<sup>2</sup>-m<sup>2</sup>
|
| 29 |
The force acting as one meter length of the conductor placed at right angle to the magnetic field, when one A current is passing through it, defines the |
magnetic flux
magnetic induction
magnetic field
self inductance
|
| 30 |
Gauss(G) is smaller unit of magnetic induction which is related to tesla(T) as |
IT = 10<sup>-4 </sup>G
IT = 10<sup>5</sup>G
IT = 10<sup>3</sup>G
IT = 10<sup>4</sup>G
|
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