Motion of a charged particle in combined fields :-
... → If a component of velocity V0x is perpendicular to the magnetic filed exists, initially this component along with the magnetic filed will set the electron in a circular motion. → The Radius of the circular path is independent of the elecric field, but the velocity along the field changes with time ...
... → If a component of velocity V0x is perpendicular to the magnetic filed exists, initially this component along with the magnetic filed will set the electron in a circular motion. → The Radius of the circular path is independent of the elecric field, but the velocity along the field changes with time ...
INSIDE THE POWER PLANT - Illinois Institute of Technology
... An electric current is created when a magnet is spun rapidly inside a coil of wire. As you see in the conceptual diagram in the right, a turbine (usually powered by water or wind) spins a magnet inside a coil. This action induces an electric current in the coil that can be used to power a light bul ...
... An electric current is created when a magnet is spun rapidly inside a coil of wire. As you see in the conceptual diagram in the right, a turbine (usually powered by water or wind) spins a magnet inside a coil. This action induces an electric current in the coil that can be used to power a light bul ...
Slide 1
... Two opposite electric charges makes an electric dipole field A string of electric charges moving in a loop (a current loop) makes a dipole magnetic field There is no monopole magnetic field observed in nature simply because there are no magnetic monopoles seen ...
... Two opposite electric charges makes an electric dipole field A string of electric charges moving in a loop (a current loop) makes a dipole magnetic field There is no monopole magnetic field observed in nature simply because there are no magnetic monopoles seen ...
5H10.11 - Compass Needles and Magnet
... combinations of dipoles. Hence, the field lines must begin and end at opposite poles. The B-field vectors are tangent to the lines at all points. ...
... combinations of dipoles. Hence, the field lines must begin and end at opposite poles. The B-field vectors are tangent to the lines at all points. ...
Magnetic monopole
A magnetic monopole is a hypothetical elementary particle in particle physics that is an isolated magnet with only one magnetic pole (a north pole without a south pole or vice versa). In more technical terms, a magnetic monopole would have a net ""magnetic charge"". Modern interest in the concept stems from particle theories, notably the grand unified and superstring theories, which predict their existence.Magnetism in bar magnets and electromagnets does not arise from magnetic monopoles. There is no conclusive experimental evidence that magnetic monopoles exist at all in our universe.Some condensed matter systems contain effective (non-isolated) magnetic monopole quasi-particles, or contain phenomena that are mathematically analogous to magnetic monopoles.