voltage v (t) across an inductor with inductance L and the time-varying current i (t) passing through it is described by the differential equation: v(t) = L \frac{di(t)}{dt} When there is a sinusoidal alternating current (AC) through an inductor, a sinusoidal voltage is induced. htt...
There exists an induced current flowing clockwise in the conducting loop shown in Figure. What is the direction of the magnetic field through the loop and how does the field vary in magnitude? A、Into the page and increasing. B、Into the page and decreasing. C、Into the page and steady. ...
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Inductance is defined as the property of an electric conductor which causes an electromotive force that is generated due to a change in the current flow. There are two types of inductance: self-inductance and mutual inductance.
Gender differences in the endotoxin-induced inflammatory and vascular responses: potential role of poly(ADP-ribose) polymerase activation Activation of poly(ADP-ribose) polymerase (PARP) is an important factor in the pathogenesis of various cardiovascular and inflammatory diseases. Here, we r... JG ...
Each inductor sets up a magnetic field around the conductor and the effect of this is that the inductor resists wants to resist any change in the flow of current.If the source of the EMF is removed, then the inductor will create a back EMF to try to maintain the current. If an ...
When a conductor is placed in the changing magnetic field, the induced current in the conductor is termed as Eddy currents. Visit to learn its applications and more.
Induce is to cause something to happen, often through persuasion or influence, while entice involves attracting or tempting someone, typically by offering something desirable.
Connected to a load, this reversing voltage polarity will create a reversing current direction in the circuit. The faster the alternator’s shaft is turned, the faster the magnet will spin, resulting in an alternating voltage and current that switches directions more often in a given amount of ...
This induced current due to the magnetic field of the inductor tries to oppose any change, an increase or a decrease, in the current. Once the magnetic field is built, the current can flow normally. When the switch is closed, the magnetic field around the inductor maintains current flow unt...