- #1
Barkan
- 19
- 0
Hello everyone,
I am currently dealing with some coupled differential equations. Seems like the result include Fresnel integrals which are easy to be approximated.
However, I am confused in many ways and I hope some experienced people can answer following:
1) Normally, we can obtain real numbers' fresnel integral values meaning:
FresnelS(a) = int(sin(t^2),t , 0, a) where a is a real value.
What happens if I want to compute some function's fresnel integral?
FresnelS(t) for example
2) What is the correct definition of Fresnel integrals. Some say FresnelS= int(sin(t^2)) and others say FresnelS = int(pi/2 * (sin(t^2)))
3) MATLAB gives a solution including FresnelC and FresnelS. But Matlab does not have any function to deal with fresnels. Anyway, which definition (shown above) does Matlab use?
I am currently dealing with some coupled differential equations. Seems like the result include Fresnel integrals which are easy to be approximated.
However, I am confused in many ways and I hope some experienced people can answer following:
1) Normally, we can obtain real numbers' fresnel integral values meaning:
FresnelS(a) = int(sin(t^2),t , 0, a) where a is a real value.
What happens if I want to compute some function's fresnel integral?
FresnelS(t) for example
2) What is the correct definition of Fresnel integrals. Some say FresnelS= int(sin(t^2)) and others say FresnelS = int(pi/2 * (sin(t^2)))
3) MATLAB gives a solution including FresnelC and FresnelS. But Matlab does not have any function to deal with fresnels. Anyway, which definition (shown above) does Matlab use?
