What is a potential function? I want to understand this intuitively

In summary, potential is a term commonly used in math textbooks and refers to the potential energy associated with conservative forces such as gravity or electrostatic attraction. It is represented mathematically by a scalar field and can be described as a function that determines the work required to move an object between two points in a conservative vector field. The gradient of the potential is always a conservative vector field, and the curl of the potential is always zero, making it a useful tool for identifying conservative vector fields.
  • #1
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My textbook keeps on using the word potential, and I keep on thinking about potential energy U = m*g*h, but this is a MATH textbook. What is this thing called 'potential'? Intuitively, what is a potential function? What should I immediately think of?

Thanks!
 
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  • #2
You'll have to be more specific with the context to get a full answer, because the first thing I think of would indeed be gravity (though more so the V(r) = GMm/r potential, not V = mgh). Mathematically speaking, forces like gravity or the electrical attraction between charged particles are called "conservative forces", which basically means they have associated "potential functions". A conservative force is one for which the work required to move an object from point A to point B depends only on the straight-line distance between the two points. It doesn't depend on the path you choose to get from A to B.

Now, what underlies this mathematically is the concept of vector fields. The force of gravity and the electrostatic attraction between charged particles are examples of vector fields. A conservative vector field is one with an associated potential function (the vector field is the gradient of the potential function). If you perform a line integral between two points of a conservative vector field, the value of the integral depends only on the value of the potential function at the two points, not on the path between them, just like the Work done by a conservative force.

So, unless you have a different context for "potential function", gravitational potential is really just an example of a potential function and the gravitational force is really just an example of a vector field.
 
  • #3
I get it! So the gradient of the potential is always a conservative vector field...but then, what is the curl of the potential?

Thanks!
 
  • #4
The curl operator acts on vector fields. The potential is a scalar field, so the curl operator cannot act on it. The curl can, however, operator on the gradient of a potential field - but it turns out the curl of the gradient of a scalar field is always zero! So, another way of identifying a conservative vector field is to check its curl: if the curl is always zero, it's conservative*.

(*There are of course always caveats, one being that if the domain your vector field is defined on has a hole in it, for example, the theorem doesn't apply)
 

1. What is a potential function?

A potential function is a mathematical concept used in physics and other sciences to describe the relationship between a system's potential energy and its position or configuration. It is a scalar function that maps a system's configuration space to its potential energy space.

2. How is potential function different from potential energy?

Potential energy is a physical quantity that represents the stored energy of a system due to its position or configuration, while a potential function is a mathematical function that describes this relationship. In other words, potential energy is a real-world measurement, while a potential function is a theoretical construct used to model this measurement.

3. What is the purpose of a potential function?

The purpose of a potential function is to provide a mathematical framework for understanding and predicting the behavior of physical systems. It allows scientists to analyze and describe the relationship between a system's energy and its position or configuration, which can help in making predictions and solving problems in various fields such as physics, chemistry, and engineering.

4. How does a potential function relate to conservative forces?

A conservative force is a type of force that does not dissipate energy and is dependent only on the initial and final positions of an object, not on the path taken. A potential function is associated with a conservative force by the gradient of the potential function being equal to the force. In other words, the potential function is the mathematical representation of a conservative force.

5. Can you provide an intuitive example of a potential function?

One intuitive example of a potential function is a ball on a hill. The height of the hill represents the potential energy of the ball, and the slope of the hill represents the force acting on the ball. As the ball rolls down the hill, its potential energy decreases, and the slope of the hill (the force) accelerates the ball. This relationship can be represented mathematically through a potential function.

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