Parameterized function crosses own path

In summary, the conversation discusses the possibility of finding points where a given function r(t) equals a specific value (x1, x2) for multiple t-values. It is suggested that this can be done using the equation r(t) = r(t-a), but it is important to determine if there is a non-trivial solution. In order to avoid plotting the graph, this approach can be used.
  • #1
mariush
28
0
Hi!

Given a function [tex] r:\mathbb{R} \rightarrow \mathbb{R}^2, r(t) = (f_1(t), f_2(t))[/tex], is there a way to analytically determine if there are points (x1, x2) where r(t) = (x1, x2) for multiple t-values?

Lets say i was to find such points for the function [tex] r(t) = (t^3-t, 3t^2 + 1) [/tex]

How should i go about finding the points without having to plot the graf?

Thanks!
 
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  • #2
In theory, you could assume that given some time t, the graph crosses the same point r(t) after time a again, leading to the equation
r(t) = r(t - a).

This leads to two equations in t and a.
The question would then be if there is a non-trivial solution (i.e. [itex]a \neq 0[/itex]).
 
  • #3
Exactly!

Thanks a lot :)
 

What is a parameterized function?

A parameterized function is a mathematical function that takes one or more parameters as inputs, and produces a value as an output based on those parameters. The parameters are usually variables that can change the behavior of the function.

What does it mean for a parameterized function to cross its own path?

When a parameterized function crosses its own path, it means that the function intersects with itself at one or more points in its domain. This can occur when the function has multiple branches or when the parameters cause the function to loop back on itself.

What causes a parameterized function to cross its own path?

The specific cause for a parameterized function to cross its own path can vary depending on the function and its parameters. In general, it can occur when the function has multiple branches, when the parameters cause the function to loop back on itself, or when the function has points of discontinuity.

How can we visualize a parameterized function crossing its own path?

One way to visualize a parameterized function crossing its own path is by graphing the function. The points where the function intersects with itself will appear as points on the graph. Another way is to use a tool such as GeoGebra, which allows for interactive exploration of mathematical functions.

What are some applications of parameterized functions that cross their own path?

Parameterized functions that cross their own path have various applications in mathematics, physics, and engineering. They can be used to model complex phenomena such as fluid dynamics, chaotic systems, and fractal patterns. They are also used in computer graphics for creating 3D animations and simulations.

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