Sine Wave Generation Coil: Exploring 0-360 Degrees

[najiban1]

Sine wave generation coil at 0 degree the coil is parallel with the north and south poles of the magnet, no voltage and no wave. At 90 degree coil is cutting maximum flux line and generates voltage and first positive, half of the wave. At 180 degree again no voltage end of one half of a wave. At 270 degree again cutting maximum flux lines and generating negative part of the wave. At 360 degree no voltage end of one complete wave, another one starts the process is same.

If this is so, how can just one volt, bee generating 60 cycles wave, when sometimes its righten 120v equal to 60 cycles)?

If period T is time it takes for one charge or a charge to complete one oscillation how does the coil turning and generating oscillating wave come in into the picture?

Does it mean when it turns in the magnetic lines, that magnetic lines are charging particles and then pushing them up and down over an opposite charge to wave one complete cycle of wave?

I know that is not true cose to coils hade to be involved to generated to halfs of wave to make one complete, cose in dc there was only 1 coil and it had only one half of a wave

 

[LightHero]

. The basic principle behind the generation of a sine wave is that the changing flux in the coil due to its movement in the magnetic field causes the coil to generate an alternating current. The coil is connected to a capacitor which stores electrical energy, and this energy is used to create the oscillating current. This causes the voltage across the coil to rise and fall, creating a sine wave. The frequency of the wave is determined by the speed of the coil's rotation, so a faster rotating coil will generate a higher frequency wave.

 

[astrokreng]

.

I would say that the sine wave generation process is a complex phenomenon that involves multiple factors such as the interaction between the coil and the magnetic field, the movement of charges, and the principles of electromagnetism. It is important to note that the generation of a sine wave requires a complete circuit, not just a single coil.

The voltage generated in the coil is a result of the changing magnetic flux through the coil. When the coil is at 0 degrees, it is parallel to the magnetic field and there is no change in flux, hence no voltage is generated. As the coil rotates to 90 degrees, it starts to cut through more flux lines, leading to an increase in the rate of change of flux and generating a positive voltage. This process continues as the coil rotates to 180 degrees, where it reaches maximum voltage, and then to 270 degrees, where it starts to decrease again.

The voltage generated in the coil is not directly related to the number of cycles in the wave. The number of cycles in a wave is determined by the frequency of the alternating current, which is dependent on the power source. In this case, the 60 cycles per second or 60 Hz frequency is determined by the power source, not the coil.

In terms of the coil turning and generating an oscillating wave, it is important to understand that the coil is not the source of the oscillation. The oscillation is created by the alternating current flowing through the circuit, which is then converted into a magnetic field by the coil. This magnetic field interacts with the magnetic field of the permanent magnet, resulting in the generation of a sine wave.

In summary, the generation of a sine wave involves a complex interplay between the coil, the magnetic field, and the principles of electromagnetism. The voltage generated in the coil is a result of the changing magnetic flux through the coil, and the frequency of the wave is determined by the power source, not the coil itself.