Why does the induced emf in an inductor increase when the circuit is opened?

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The discussion centers on why the induced electromotive force (emf) in an inductor is greater when a switch is opened compared to when it is closed. The key explanation is based on the formula V = L dI/dt, where dI/dt is significantly higher when the switch is opened, as the current stops abruptly. When the switch is closed, the current rises gradually due to the inductance and series resistance, limiting dI/dt. In contrast, opening the switch causes an immediate cessation of current, resulting in a rapid change that induces a higher emf. The conversation highlights the importance of understanding basic circuit components to grasp more complex electrical concepts.
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Well the question goes like this..

An Inductor is connected to a battery through a switch. Why the induced emf in the inductor is much larger when switch is opened as compared to when the switch is closed.
 
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arpan251089 said:
Well the question goes like this..

An Inductor is connected to a battery through a switch. Why the induced emf in the inductor is much larger when switch is opened as compared to when the switch is closed.
The reason is V = L dI/dt. When the switch is opened, dI/dt (actually -dI/dt) is very high (much higher than when the switch is closed). I learned this early in my life when I was working on 6-volt automotive ignition circuits, and got several-hundred-volt shocks from the primary of the ignition coil. You should set up the switch in series with the coil, and then put a capacitor across the switch.
 
But what is the reason that dI/dt is more when switch is opened than switch is closed?
 
arpan251089 said:
But what is the reason that dI/dt is more when switch is opened than switch is closed?
There are two reasons:
First, when the voltage is switched on, the voltage across the inductance will never exceed the applied voltage; so dI/dt <= V/L
Second, because inductance always has some series resistance R (or eddy current losses), there is an L/R time constant that limits the current risetime in the coil:so I(t)= [1-exp(-Rt/L)] V/R.
But, when the switch is opened (rapidly, so it won't spark), the current stops imediately, meaning dI/dt is very large. It is not limited by V/L.
 
As far as opening the switch is concerned the current will not stop immediately. It will decay following the same rule of rise. Time constant not only limits the rise but also the decay.
 
As far as opening the switch is concerned the current will not stop immediately. It will decay following the same rule of rise. Time constant not only limits the rise but also the decay.

Hi arpan251089. You seem to have some misunderstanding of how a switch works.

Sorry but I don't think you can begin to understand other more complicated circuits and circuit components until you've got a basic grasp of things like wires and switches (and short circuits and open circuits).
 
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Though I don't have the practical experience of getting hit by high voltage shocks, I agree with the explanation offered by Bob S. When the switch is closed, the current takes its own time in rising to its max limit. Whereas when the switch is opened, we are manually opening the switch and thus we have forced the current to stop immediately (since current always needs a 'circuit' to flow in, and we have opened that circuit). So rate of change in current is much more when the switch is opened, and we get a higher induced emf.
 
Yeah I'm sorry. I just forgot that though the falling current will induce emf in inductor it won't be able to flow bcoz the circuit is opened.

I'm sorry. My mistake. Thnks to all of you.
Now this whole question seems so stupid to me.
 

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