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At school I've always learned that you can view Current and Voltage like this:

The current is the flow of charge per second and the Voltage is how badly the current 'wants' to flow.

But I'm having some trouble with this view. How can we have a Voltage without a current? There is nothing to 'flow', so how can it be there? Or is it 'latent' voltage, I mean is the voltage just always there and if a current is introduced it flows?

Also, I believe you can't have current without voltage. This to me seems logical from the very definition of current. But if you have a 'charge' without a voltage, doesn't it just stay in 1 place? Can you view it like that? If you introduce a charge in a circuit without a voltage it just doesn't move?

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    $\begingroup$ Pretend electrons in a wire are water molecules in a pipe. Voltage is pressure, amperes is the rate of flow. $\endgroup$
    – Dale
    Dec 16, 2014 at 21:07
  • $\begingroup$ This explains it perfectly :D learningaboutelectronics.com/Articles/… $\endgroup$
    – user114211
    Apr 13, 2016 at 2:35
  • $\begingroup$ In superconductors current flows without voltage. Your classical analogies are limited, as any electrical flow in intrinsically quantum mechanical. Don't try to "straight up" your analogies, but rather expand your knowledge. $\endgroup$
    – Alexander
    Jun 18, 2020 at 0:00
  • $\begingroup$ "the Voltage is how badly the current 'wants' to flow"It is wrong b a bit. It should be like " The Voltage is how badly the charges want to flow." $\endgroup$
    – Predaking Askboss
    Dec 19, 2021 at 15:38

3 Answers 3

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What flows is not the voltage but the charge, and that flow is called current. There can be voltage without a current; for instance if you have a single charge, that charge induces a voltage in space, even if it's empty. Voltage, in the most physical way, is a scalar field that determines the potential energy per unit charge at every point in space.

Now, you can't have currents without voltages because if there's a current there's a charge moving, and every charge produces a voltage, but you can have currents without voltage differences in space. For example, if you have a charged sphere, and you make it rotate, the charge will be on the surface and by rotating the sphere you will have a current on the surface, but the voltage is the same at every point of the surface. Also magnetization of materials can induce currents by the same way.

If you introduce a charge in a circuit without a voltage it just doesn't move?

That's true, it won't move, unless you have some changing magnetic field that may introduce "voltage differences" between the same point, making $\nabla\times E\not =0$, although that wouldn't be electrostatic voltage the way you're seeing it.

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    $\begingroup$ The only exception is that superconductors can carry a current without a voltage. $\endgroup$
    – Zo the Relativist
    Jan 22, 2013 at 15:33
  • $\begingroup$ @JerrySchirmer Really, isn't it that they just have super low resistence? I mean, I know that a very very very low voltage could produce a huge current, but would a superconductor in total absence of voltage difference produce a current? $\endgroup$
    – MyUserIsThis
    Jan 22, 2013 at 16:25
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    $\begingroup$ superconductors can maintain eddy currents flowing in rings with no externally supplied voltage. $\endgroup$
    – Zo the Relativist
    Jan 22, 2013 at 17:51
  • $\begingroup$ And i should say that they don't match up with ordinary classical expectations about conductors, because superconductivity is a fundamentally quantum mechanical phenomenon. $\endgroup$
    – Zo the Relativist
    Jan 22, 2013 at 17:58
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    $\begingroup$ "f you have a single charge, that charge induces a voltage in all space" Is that right, though? I thought voltage has to be defined as a difference in two locations, and the idea of a voltage at a point is meaningless. Or are you saying that if you were to sample two points around this point charge you could measure a voltage as the field strength dropped off? $\endgroup$
    – Chelonian
    Sep 20, 2013 at 0:09
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When you think electricity think water. Let's use a waterfall as an example for this analogy:

Water traveling from the high point to the low point of the waterfall is like electrons flowing through a conductor. That is the current: current $\equiv$ flow.

Voltage by definition would be the "difference of the potentials" in the waterfall analogy the voltage will be between the highest point and the lower point of the waterfall. The higher the raise the higher the voltage. When one point is more charged with electric than the other, that's voltage.

If the waterfall is dry and there is no Current, the difference between the two points is still there. One point is higher than the other (one point is more electrically charged than the other). That's voltage without current.

If voltage was zero (if the high point and low point of the waterfall were on the same level) would water still fall down? No, water would stay still. Still = no flow = no current without voltage.

Hope this helps :)

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    $\begingroup$ Best example to understand thanks, but can you explain me one more thing , how we can add water to waterfall meaning why rechargeable batteries die $\endgroup$
    – Varun Naharia
    Jan 12, 2019 at 9:20
  • $\begingroup$ By far the best explanation of Voltage & Current. $\endgroup$
    – Yaniv Peretz
    Dec 27, 2022 at 23:08
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For e.g. a battery there is voltage even it is not connected anywhere. Thus voltage(Potential difference between two points) exists without current(flow of charge with respect to time) but current doesn't exist without voltage .

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  • $\begingroup$ I was waiting for somebody to give this answer. I'm surprised nobody gave it enough credits. $\endgroup$
    – Cristian E.
    Jan 31, 2021 at 15:19

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