Difference between revisions of "Forest UCM CoV"
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:<math>\frac{df}{dx} = 0</math> | :<math>\frac{df}{dx} = 0</math> | ||
− | if the second derivative is zero there is a min or | + | if the second derivative is zero there is a min, max, or neither |
if the second derivative is negative there is a max | if the second derivative is negative there is a max |
Revision as of 12:38, 13 October 2014
Calculus of Variations
Fermat's Principle
Fermats principle is that light takes a path between two points that requires the least amount of time.
If we let S represent the path of light between two points then
light takes the time
to travel between two points can be expressed as
The index of refraction is denoted as
for light traversing an interface with an nindex of refraction $n_1$ on one side and $n_2$ on the other side we would hav e
take derivative of time with respect to
to find a minimum for the time of flightor
Generalizing Fermat's principle to determining the shorest path
One can apply Fermat's principle to show that the shortest path between two points is a straight line.
In 2-D one can write the differential path length as
using chain rule
the the path length between two points
and isadding up the minimum of the integrand function is one way to minimize the integral ( or path length)
let
a critical point (where a min or max) exists if
if the second derivative is zero there is a min, max, or neither
if the second derivative is negative there is a max
if the second derivative is positive there is a min
http://scipp.ucsc.edu/~haber/ph5B/fermat09.pdf
Euler-Lagrange Equation
https://www.fields.utoronto.ca/programs/scientific/12-13/Marsden/FieldsSS2-FinalSlidesJuly2012.pdf