Clear Up My Misconception: Magnet & Magnetic Force Work w/o Energy?

  • Thread starter Gelsamel Epsilon
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In summary, the conversation is about clarifying a possible misconception about magnets and their ability to do work without expending energy. It is concluded that magnetic potential energy works similarly to gravitational potential energy, but the main difference is that magnetic fields do no work because they only change the velocity of particles perpendicular to their direction of motion. It is also mentioned that potential energy can be described by a scalar function and can be represented by a potential energy equation.
  • #1
Gelsamel Epsilon
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Sorry guys but I need someone to clear up what I consider something I may have a misconception about.

In my understanding a magnet or magnetic forces, can do work yet expend no energy. Is this correct? And if so is there a law I probably havn't learned yet? Is it one of those things no one can explain? Or am I wrong and there is some energy conversion, what ever it may be?

Sorta sounds like a stupid, and possibly simple question to me at the moment. But the answer is avoiding me D:~Gelsamel

Edit: Because it seems to me that if gravity does work through potential energy conversions then either magnets are mysterious and just do things or there is some sort of magnetic potential energy.
 
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  • #2
Magnetic potential energy works pretty much the same way as gravitational.
 
  • #3
Ah I see, so it is as simple as that. Thanks for clearing that up.
 
  • #4
russ_watters said:
Magnetic potential energy works pretty much the same way as gravitational.

That isn't quite right. For starters, magnetic potential is a vector, not scalar. Assuming we're staying out of GR, GMm/r^2 is scalar. But the main thing is that magnetic fields do no work because they only change velocity perpendicular to direction of motion: F = q v x B. F perpendicular to v always. The speed of the accelerated particle remains unchanged, only the direction is altered.
 
  • #5
Ah I see how that works, that's interesting.
 
  • #6
i thought magnetic potential is a scalar??
 
  • #7
According to Wik, it can either, but I'd still say that the potential energy of an object works pretty much the same in a static magnetic field as in a gravitational. I think Bo and I are talking about two different things: I'm just talking about when you pull a metalic object directly away from a magnet, you get the same d^2 relationship between distance and force and therefore the same potential energy equation. For that matter, any similar system (spring-mass, air shock) can be described via potential energy:
If a force acting on an object is a function of position only, it is said to be a conservative force, and it can be represented by a potential energy function which for a one-dimensional case satisfies the derivative condition.
http://hyperphysics.phy-astr.gsu.edu/hbase/pegrav.html
 
  • #8
I´m pretty sure that the potential is always a scalar. By definition, the Force resulting from a potential U is F = grad U, which would make no sense if U was a vector field.
 
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FAQ: Clear Up My Misconception: Magnet & Magnetic Force Work w/o Energy?

What is a magnet and how does it work?

A magnet is an object that produces a magnetic field, which is a force that can attract or repel other objects made of certain materials, such as iron or nickel. This force is created by the alignment of electrons within the magnet, which creates a North and South pole. Like poles repel each other, while opposite poles attract.

Can magnets work without energy?

Yes, magnets do not require energy to create a magnetic field. The alignment of electrons within the magnet creates a continuous magnetic field that can interact with other objects without the need for additional energy.

How does the magnetic force work without energy?

The magnetic force is a result of the magnetic field created by the alignment of electrons within a magnet. This force can attract or repel other objects without the need for additional energy, as long as the magnetic field remains intact.

Can magnets lose their magnetic force over time?

Yes, magnets can lose their magnetic force over time due to factors such as exposure to high temperatures, physical damage, or being demagnetized by a strong magnetic field. However, most magnets can retain their magnetism for a long time under normal conditions.

How can I clear up my misconception about magnets and magnetic force?

The best way to clear up any misconceptions about magnets and magnetic force is to do research from reliable sources, such as scientific articles or textbooks. You can also conduct experiments and observe the behavior of magnets to better understand their properties and how they work.

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