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I was taught that a time varying magnetic field generates an electric field which is non-conservative in nature and my teacher also told me that when a conducting coil is placed in a region with time varying magnetic field (with appropriate orientation) , some EMF is induced in the coil and this EMF is due to the presence of that induced electric field.

Now this is what is given in my physics NCERT book (I have highlighted the texts)

The statement "Work against the back emf" is the same as "work against the induced electric field" (Right ?). And if that's true , then how can that energy get stored  ?

Negative work done by conservative fields are stored in the fields as potential energy and I don't think the same is true for non conservative fields (otherwise there will be no difference in them).

So how can the induced electric field store energy ?

I was taught that a time-varying magnetic field generates an electric field which is non-conservative in nature, and my teacher also told me that when a conducting coil is placed in a region with a time-varying magnetic field, with appropriate orientation, some EMF is induced in the coil and this EMF is due to the presence of that induced electric field.

Now, this is what is given in my physics NCERT book (I have highlighted the text):

The statement "work against the back emf" is the same as "work against the induced electric field", right? If that's true , then how can that energy get stored?

Negative work done by conservative fields is stored in the fields as potential energy. I don't think the same is true for non-conservative fields, otherwise, there is no difference.

So how can the induced electric field store energy ?

I was taught that a time varying magnetic field generates an electric field which is non-conservative in nature and my teacher also told me that when a conducting coil is placed in a region with time varying magnetic field (with appropriate orientation) , some EMF is induced in the coil and this EMF is due to the presence of that induced electric field.

Now this is what is given in my physics NCERT book (I have highlighted the texts)

The statement "Work against the back emf" is the same as "work against the induced electric field" (Right ?). And if that's true , then how can that energy get stored ?

Negative work done by conservative fields are stored in the fields as potential energy and I don't think the same is true for non conservative fields (otherwise there will be no difference in them).

So how can the induced electric field store energy?

I was taught that a time varying magnetic field generates an electric field which is non-conservative in nature and my teacher also told me that when a conducting coil is placed in a region with time varying magnetic field (with appropriate orientation) , some EMF is induced in the coil and this EMF is due to the presence of that induced electric field.

Now this is what is given in my physics NCERT book (I have highlighted the texts)

The statement "Work against the back emf" is the same as "work against the induced electric field" (Right ?). And if that's true , then how can that energy get stored ?

Negative work done by conservative fields are stored in the fields as potential energy and I don't think the same is true for non conservative fields (otherwise there will be no difference in them).

So how can the induced electric field store energy ?

I was taught that a time varying magnetic field generates an electric field which is non-conservative in nature and my teacher also told me that when a conducting coil is placed in a region with time varying magnetic fields (with appropriate orientation) , some EMF is induced in the coil and this EMF is due to the presence of that induced electric field.

Now this is what is given in my NCERT book (I have highlighted the texts)

The statement "Work against the back emf" is the same as "work against the induced electric field" (Right ?). And if that's true , then how can that energy get stored ?

Negative work done by conservative fields are stored in the fields as potential energy and I don't think the same is true for non conservative fields (otherwise there will be no difference in them).

So how can the induced electric field store energy?

I was taught that a time varying magnetic field generates an electric field which is non-conservative in nature and my teacher also told me that when a conducting coil is placed in a region with time varying magnetic field (with appropriate orientation) , some EMF is induced in the coil and this EMF is due to the presence of that induced electric field.

Now this is what is given in my physics NCERT book (I have highlighted the texts)

The statement "Work against the back emf" is the same as "work against the induced electric field" (Right ?). And if that's true , then how can that energy get stored ?

Negative work done by conservative fields are stored in the fields as potential energy and I don't think the same is true for non conservative fields (otherwise there will be no difference in them).

So how can the induced electric field store energy?