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!!!

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!!!

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!!!

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!!!