I collected data in LabVIEW to generate a P-V (pressure-volume) curve (see link below). I now need to find the area under the curve. The catch is that there are two portions of the curve I need to ...
I would like to exploit something like the "polygon" function to fill the area under a curve but I don't want to use colors but narrow parallel lines (better if oblique). Is that possible?
I got an arbitrary shaped curve, enclosing some area. I would like to approximate the number of pixels that the curve is enclosing on an iPhone/iPad screen. How can I do so? A curve is defined as a ...
I am trying to locate a region under the curve of two functions such that the area of this region equals a given number m. For example, by integrating the two functions: f(x) = 3x - 3x^2 g(x) = x ...
I have the following combinations of graphs: import pylab as pl import numpy as np def gauss2d(x,sigma): return (1/np.sqrt(2*np.pi*sigma ))*np.exp(-1/2*(x/sigma)**2 ) def ...
I have a file ("data.txt") with two columns and N rows, something like 0.009943796 0.4667975 0.009795735 0.46777886 0.009623984 0.46897832 0.009564759 0.46941447 0.009546991 0.4703958 0.009428543 ...
I have two density curves plotted using this: Network <- Mydf$Networks quartiles <- quantile(Mydf$Avg.Position, probs=c(25,50,75)/100) density <- ggplot(Mydf, aes(x = Avg.Position, fill = ...