Brachistochrone curve - Gravity and other influences

In summary, the brachistochrone problem aims to find the fastest path between two points for an object solely under the influence of gravity, with no other forces present. This can be achieved by determining the shape of the constraint, or brachistochrone, which can take different forms depending on the scenario. The key factor is the absence of damping forces, allowing the object to follow the ideal energy law and swoop back up to the same height. This problem has practical applications in various fields, such as optimizing ski slopes or roller coaster designs.
  • #1
ehrenfest
2,020
1

Homework Statement


http://content.answers.com/main/content/wp/en/d/d4/Brachistochrone.png
Go to the link and look at this brachistochrone curve. The brachistochrone problem is supposed to find the fastest path between to points for an object under only the influence of gravity, correct?

Then how does the problem even have a solution when the coordinates are at the same height. How can the the particle swoop back up under only the influence of gravity?



Homework Equations





The Attempt at a Solution

 
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  • #2
There is nothing wrong if they are at the same height. There are no damping forces like friction or air resistance. It's simply the energy law, it comes to the same height and then swoop back, like pendulum.
 
  • #3
So, it is always assumed that the particle is attached to wire or has some sort of constraint? Is the constraint always the same?
 
  • #4
brachistochrone is a constraint. You want to calculate what shape should constraint have that time of traveling will be minimal. It doesn't matter what type of constraint is it, it's just a mathematical problem. It is also important that there are no damping forces, which is of course just ideal case.
 
  • #5
I see, and the constraint is almost always in the form of a normal force, such as in the classic example where they are at the same height, right?
 
  • #6
yes, for the fastest path the constraint (brachistochrone) is in the plane parallel to force. But also you have for example the skier on the slope, the shortest path is still brachistochrone, only that now it lies in the plane of the slope.
 

Related to Brachistochrone curve - Gravity and other influences

1. What is a Brachistochrone curve?

A Brachistochrone curve is a mathematical curve that represents the path of a particle or object moving between two points in the shortest amount of time under the influence of gravity and other forces.

2. How is the Brachistochrone curve related to gravity?

The Brachistochrone curve is related to gravity because it takes into account the gravitational force acting on an object as it moves along the curve. This force influences the shape of the curve and the speed at which the object travels.

3. What other influences can affect the Brachistochrone curve?

In addition to gravity, other influences that can affect the Brachistochrone curve include air resistance, friction, and any other external forces acting on the object as it moves along the curve.

4. How is the Brachistochrone curve calculated?

The Brachistochrone curve is typically calculated using the principles of calculus, specifically the calculus of variations. This involves finding the path that minimizes the time of travel between two points, taking into account all relevant forces and constraints.

5. What real-life applications does the Brachistochrone curve have?

The Brachistochrone curve has a variety of applications, including in engineering, physics, and mathematics. It can be used to optimize the trajectory of projectiles, design roller coasters, and understand the efficiency of various transportation systems, among other uses.

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