No changes will occur by wiring a 110 volt motor in reverse polarity, rotation will always be the same. Some single phase motors are designed to be reversed ,but that is a function of the relationship of start windings and capacitors and requires some wiring changes in a motor junction box or an end terminal housing, not by just changing the incoming power.
If this is an AC motor nothing will happen but if this is DC motor then the rotional direction is reversed with reverse polarity
runs in same direction
The motor's spin will also reverse.
The magnetic field reverses direction.
this transistor is common emitter configurated transistor nd if emmiter nd collector both terminals are reversed bias then no current will be flowing through th terminal...
The wattmeter will read downscale (backwards).
'Current lags voltage' means that in the AC cycle the voltage peaks and the current peaks a little time (a fraction of a cycle) later. This happens with electrical loads like motors. When the current lags, there is a small period in each half-cycle when the voltage has reversed and the current has not reversed yet. This causes power to flow back into the supply from the load. So there is a loss of average power fed to the load for a given voltage and current. In this situation the power is the voltage times the current times the power factor, and the power factor is the cosine of the angle by which the current lags the voltage (counting 360 degrees as a full cycle).
In that case, the magnetic field caused by the current would also be reversed. As for the wire itself, it would feel a force in the opposite direction, due to the interaction of the magnetic fields.
As long as the amperage stays the same, the force in the relay stays the same regardless of direction of the current.
In that case, the magnetic field caused by the current would also be reversed. As for the wire itself, it would feel a force in the opposite direction, due to the interaction of the magnetic fields.
the wire would be deflected perpendicular to the magnetic field in the opposite direction.
When an electric current is reversed in an electromagnet, the magnetic field also reverses.
The magnetic field reverses direction.
The polarity of the magnetic field of a wire reverses when you change the direction of the current in the wire.
Direction of the magnetic lines too would get changed
The magnetic field collapses to zero, then builds up again for the current in the opposite direction.
You are either pushed the opposite direction of the current or go nowhere.
this transistor is common emitter configurated transistor nd if emmiter nd collector both terminals are reversed bias then no current will be flowing through th terminal...
The current (or electrons if you will {but thought of as flowing in the opposite direction} in a DC circuit flows only in one direction. In an AC circuit the current periodically flows in the opposite direction (in the US this usually happens 120 times a second, so 60 cycles per second.)
it does not work