There would be no rectified output. The transformer primary has to be closed to induce a current into the secondary winding. At this point of the secondary the voltage is still AC. This voltage is then applied to the rectification bridge to change it to DC. So you can see how no voltage on the primary, the same as the unit being unplugged, affects the output voltage.
It's the natural output from a coil that rotates within a field. To produce d.c. requires the natural a.c. output to be rectified (usually by means of a split-ring commutator).
Rectifiers don't "stabilize the output voltage" of rectifier circuits when input voltage fluctuates. The rectifiers just rectify the input, and the output will fluctuate as the input does. Another form of "conditioning" of the rectified output is needed to address the issue of fluctuations. And we use the term regulation to talk about the effect of "stabilizing" an output voltage. Through regulation, the output will be resistant to changes in voltage when changes in the input voltage occur.
"i did something wrong but the expert rectified it" (add your own grammar!)
Rectified EMG is EMG where the negative peaks are made positive. In Matlab: rectified_emg = abs(emg).
The incoming frequency is fed to a transformer ( or IC chip). Another frequency is fed to that same place. The sums and differences are output. Differences are rectified to recover the modulated info.
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There are several types of turpentine. Rectified turpentine is, arguably, a bit of a misnomer when it comes to 'true' turpentine. While regular or distilled turpentine is the sap from a tree (normally pine) tapped in a similar manner to maple syrup, rectified turpentine goes through an entirely different process. Rectified turpentine is made by literally mashing up trunk, limbs and leaves of a tree, then steaming out the spirits. Because of this, rectified turpentine has water, and therefore excess oxygen which can cause undesirable drying patterns in projects or art.
The normal method for controlling output of an alternator is to vary the field current. In a PM alternator, there would be no field windings to control. The only way I could think of would be to vary the speed of rotation. This might work if the output was rectified (DC), but would be a problem if the output is AC, since the frequency would also change. I have not seen a PM alternator per se. Unusual.
corrected made right
The past tense is rectified.
It is a direct-current amplifier in which the dc input signal is filtered by a low-pass filter, then used to modulate a carrier so it can be amplified conventionally as an alternating-current signal; the amplified dc output is obtained by rectifying and filtering the rectified carrier signal.