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Osnel Jr
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- TL;DR Summary
- For Rate of cutting in ac that means a higher frequency which also means a lower reactance theoretically. If so, why is higher rpm ideal?
Summary
Ohh I was thinking about capacitors since Xc=1/(2*pi*f*c) where xc is inversely proportional to Frequency but in inductors they are directly proportional..anorlunda said:No, you can't say that reluctance changes frequency.
Back up. Explain the context of your question please.
AC RPM stands for alternating current revolutions per minute. It is a measure of the rotational speed of an AC motor or generator, which is the number of complete rotations it makes in one minute.
The amount of reactance in an AC circuit is directly proportional to the AC RPM. This means that as the AC RPM increases, the amount of reactance also increases. This relationship is described by the equation X = 2πfL, where X is the reactance, f is the frequency of the AC current, and L is the inductance of the circuit.
Reactance is a measure of the opposition to the flow of current in an AC circuit. It is caused by inductance and capacitance in the circuit and is measured in ohms. Reactance helps control the flow of current and can be used to regulate the speed of an AC motor or generator.
The amount of reactance in an AC motor can affect its performance in several ways. First, it can affect the speed of the motor, as mentioned earlier. Second, it can also affect the efficiency of the motor, as higher reactance can cause more energy loss in the form of heat. Lastly, reactance can also impact the torque and power output of the motor.
The amount of reactance in an AC circuit can be controlled by adjusting the frequency of the AC current or by changing the inductance or capacitance of the circuit. This can be done using various electronic components such as inductors and capacitors. In AC motors, the amount of reactance can also be controlled by adjusting the rotor speed or the number of poles in the stator.