standard direction of rotation of an induction motor is counterclockwise when looking from the front end i.e. non-driving end of the motor.
the voltage tolerance of a standard electric motor is
The answer to that question is entirely dependent on the motor. Many motors have an access plate where the power feeds into the motor. Removing that plate often reveals a wiring diagram that shows how to change the wiring to reverse the motor direction. But most AC electric motors do not provide the option of reversing direction.
the magnitude is decided by the amount of flux, number of conductors, speed of the motor and the type of the winding used. the polarity is decided by the direction of rotation of the motor and the direction of armature current flowing in the motor.
A single phase induction motor is not self starting; thus, it is necessary to provide a starting circuit and associated start windings to give the initial rotation in a single phase induction motor. The normal running windings within such a motor can cause the rotor to turn in either direction, so the starting circuit determines the operating direction.
If you're talking about an electric motor, increasing the frequency will increase the speed of rotation of the motor, and decreasing the frequency will decrease the speed of rotation of the motor. The other way of controlling a motor is to control the current; increasing the current increases speed, decreasing current decreases speed.
the voltage tolerance of a standard electric motor is
Interchanging the red and black leads in the motor's motor junction box will reverse the direction of rotation on the motor.
fan generally works on an electric motor. When electricity is passed through the coil in the motor the axle rotates. In a fan the axle is attached to the main body which has blades aerodynamically designed to generate an action creating wind. Direction of current through the motor decides the direction of rotation of theales.
The motor will spin the direction that the positive lead is on. So if the shaft is pointing towards you, you will need to put the positive lead on the left side to make it turn counter clockwise.
They are turned by a gear train, which in turn is driven by a spring-driven, weight-driven, or electric motor. Their direction of rotation is normally clockwise when viewing the clock's "face".
Cooling remains same irrespective of the motor rotational direction.
Usually swapping the inlet and outlet connections will do this, depending on the design of the motor.
Remove the motor and get the info off of it`s nametag and call around to motor shops and match it up to a standard motor, you`ll save a ton of $. The most relevant info is: HP, RPM, FR(frame), ROT(rotation) and any model,part or catalog #, Be sure when quoting the direction of rotation to the motor shop you specify CW or CCW and whether that direction is looking at the shaft end (se) or lead end (le or opp for opposite end). If there is no le,se or opp it is usually assumed the rotation direction is looking at the shaft. Be sure to get the proper run capacitor for whatever motor you buy.
Reverse any two line leads connected to the motor will reverse the directional rotation of the motor
Change the polarity of either the field coils or the armature, not both and you will reverse rotation.
When changing the auxilary face winding connection the current flow in the winding is changed so that the rotating emf direction is changed . Thats why the motor rotates in opposite direction.
The answer to that question is entirely dependent on the motor. Many motors have an access plate where the power feeds into the motor. Removing that plate often reveals a wiring diagram that shows how to change the wiring to reverse the motor direction. But most AC electric motors do not provide the option of reversing direction.