Results for "Author: christine daniels"

Simulates the "game of life", by Conway.

With this code you can calculate the fabulous pictures obtained with the Mandelbrot-fractal. There is a popup-menu when clicking with the right mousebutton. Clicking with the left button in the image calculates a new picture.

This program lets you find a color with the HSV-values. The RGB-values are also calculated. You can copy these colorvalues to the clipboard for use in a webpage or other application.

Graphical representation of the Lorentz Chaos Differential equations.This program lets you play with the Lorentz differential equations so that you can experience that a minute change in de starting values can cause unpredictable changes in the endresult. Because the figure is 3-dimensional, you can rotate the figure in space.These equations lay at the basis of 'the butterfly hypothesis'.Have fun!!!

This program lets you find a color with the HSV-values. The RGB-values are also calculated. You can copy these colorvalues to the clipboard for use in a webpage or other application.

Simulates the "game of life", by Conway.

With this code you can calculate the fabulous pictures obtained with the Mandelbrot-fractal. There is a popup-menu when clicking with the right mousebutton. Clicking with the left button in the image calculates a new picture.

Graphical representation of the Lorentz Chaos Differential equations.This program lets you play with the Lorentz differential equations so that you can experience that a minute change in de starting values can cause unpredictable changes in the endresult. Because the figure is 3-dimensional, you can rotate the figure in space.These equations lay at the basis of 'the butterfly hypothesis'.Have fun!!!

This program lets you find a color with the HSV-values. The RGB-values are also calculated. You can copy these colorvalues to the clipboard for use in a webpage or other application.

Simulates the "game of life", by Conway.

With this code you can calculate the fabulous pictures obtained with the Mandelbrot-fractal. There is a popup-menu when clicking with the right mousebutton. Clicking with the left button in the image calculates a new picture.

Graphical representation of the Lorentz Chaos Differential equations.This program lets you play with the Lorentz differential equations so that you can experience that a minute change in de starting values can cause unpredictable changes in the endresult. Because the figure is 3-dimensional, you can rotate the figure in space.These equations lay at the basis of 'the butterfly hypothesis'.Have fun!!!

This program lets you find a color with the HSV-values. The RGB-values are also calculated. You can copy these colorvalues to the clipboard for use in a webpage or other application.

Simulates the "game of life", by Conway.

With this code you can calculate the fabulous pictures obtained with the Mandelbrot-fractal. There is a popup-menu when clicking with the right mousebutton. Clicking with the left button in the image calculates a new picture.

Graphical representation of the Lorentz Chaos Differential equations.This program lets you play with the Lorentz differential equations so that you can experience that a minute change in de starting values can cause unpredictable changes in the endresult. Because the figure is 3-dimensional, you can rotate the figure in space.These equations lay at the basis of 'the butterfly hypothesis'.Have fun!!!

This program lets you find a color with the HSV-values. The RGB-values are also calculated. You can copy these colorvalues to the clipboard for use in a webpage or other application.

Simulates the "game of life", by Conway.

With this code you can calculate the fabulous pictures obtained with the Mandelbrot-fractal. There is a popup-menu when clicking with the right mousebutton. Clicking with the left button in the image calculates a new picture.

Graphical representation of the Lorentz Chaos Differential equations.This program lets you play with the Lorentz differential equations so that you can experience that a minute change in de starting values can cause unpredictable changes in the endresult. Because the figure is 3-dimensional, you can rotate the figure in space.These equations lay at the basis of 'the butterfly hypothesis'.Have fun!!!