if the relative speed of magnetic flux of stator and rotor becomes zero there will be no back emf and eventually the rotor gets zero speed
That happens when the supply is turned off, and the motor runs down and stops.
(single-phase assumed). It will probably just sit and buzz, drawing the starting current. But give it a spin and it will start up in either direction.
Induced voltage happens through induction. When a wire goes through a magnetic field a voltage is induced across its ends. The basic equation is Ampere's law: Curl E = dB/dt at every point, where E is the electric field and B the magnetic flux density. For a loop of wire Stokes's theorem can be applied to this: Integral E.dl = d/dt of the surface integral of B.dS which says that the induced voltage along the loop equals the rate of change of the magnetic flux linking the area of the loop.
Internal is inside the organism External is the surroundings and stuff that happens outside the organism
The output waveform will be limited to the difference between the supply and ground (or between the positive and negative supplies). This causes distortion of the output waveform.
what happens on induction day at iceland
Nothing will happen because of the gravity
Normal is a relative term and what happens between two consenting adults is between them.
then we die
The supply frequency determines the synchronous speed of the machine -i.e. the speed of the naturally-rotating field within the airgap. As motors typically run around 5% below this speed, the rotor's speed would increase.
induction
Induction happens
Negetiv charge due to induction.
It's a transversal! Minimum induction will occur between the transmission lines using this configuration.
It will draw a heavy current and coils will be brunt.
* deduction * induction * speculation
The relative addresses will change as the formula is copied.