EE MCQ
EE MCQ
Home
Quiz
Contact Us
Electromagnetic Field Theory
Plane z = 10 m carries charge 20 C/m2. The electric field intensity at the origin is
– 360 πuz v/m.
– 10 uz v/m.
– 18 πuz v/m.
– 72 πuz v/m.
– 360 πuz v/m.
– 10 uz v/m.
– 18 πuz v/m.
– 72 πuz v/m.
Answer
Download EE MCQ app
Related Question
Electromagnetic Field Theory
The radiation pattern of Hertzian dipole in the plane perpendicular to dipole is a
Circle
None of these
Null
Figure of eight
Circle
None of these
Null
Figure of eight
Answer
Download EE MCQ app
Electromagnetic Field Theory
A negative point charge q = - 40 nC is moving with velocity of 6 × 106 m/s in a direction specited by unit vector uy + 0.6 uz. Find the magnitude of force vector on the moving particle by the field B = 2 ux + 3 uy + 5 uz mT and E = 2 ux - 3 uy + 5 uz KV/m
1440 μN.
144 μN.
1144 μN.
244 μN.
1440 μN.
144 μN.
1144 μN.
244 μN.
Answer
Download EE MCQ app
Electromagnetic Field Theory
Poyniting vector has the dimensions
Watt × metre2.
Watt/metre.
Watt × metre.
Watts/metre2.
Watt × metre2.
Watt/metre.
Watt × metre.
Watts/metre2.
Answer
Download EE MCQ app
Electromagnetic Field Theory
An emf of 16 volts is induced in a coil of inductance 4 H. The rate of change of current must be
4 A / s.
32 A / s.
16 A / s.
64 A / s.
4 A / s.
32 A / s.
16 A / s.
64 A / s.
Answer
Download EE MCQ app
Electromagnetic Field Theory
A conductor of length 1 metre moves at right angles to magnetic field of flux density 1 Wb/m2 with a velocity of 25 m/s. The induced emf in the conductor will be
75 V.
25 V.
50 V.
100 V.
75 V.
25 V.
50 V.
100 V.
Answer
Download EE MCQ app
Search
Login here
Google
Download our application
Android
Apple
Follow Us
Facebook
Telegram
Instagram