@MrKwanlee Sure, no prob. All of the graphs you see are made from the parameters listed at 0:08 in the video (xt1 = sin (15t); yt1 = sin(16t)). By varying the t-step, you get all the different graphs, even though the equations are unchanged. I set the t-step, as shown at 0:11, according to the expression 100pi/n.
@MrKwanlee More info: Every graph in the video is just a different n, starting from n=1 and going up to n=400, which is reached at 4:11 (n=400 is a blank graph). Then I go from 400 back to 1 faster, and then from 1 back to 400 even faster.
(The t-max is just 100pi, and all the other numbers at 0:11 are slightly more than +-1 in order to create a comfortable frame for the graphs to display in.)
hey those are a lot of cool graphs can you list a few
MrKwanlee 1 year ago
@MrKwanlee Sure, no prob. All of the graphs you see are made from the parameters listed at 0:08 in the video (xt1 = sin (15t); yt1 = sin(16t)). By varying the t-step, you get all the different graphs, even though the equations are unchanged. I set the t-step, as shown at 0:11, according to the expression 100pi/n.
amt253 1 year ago
@MrKwanlee More info: Every graph in the video is just a different n, starting from n=1 and going up to n=400, which is reached at 4:11 (n=400 is a blank graph). Then I go from 400 back to 1 faster, and then from 1 back to 400 even faster.
(The t-max is just 100pi, and all the other numbers at 0:11 are slightly more than +-1 in order to create a comfortable frame for the graphs to display in.)
amt253 1 year ago
Parameters rool!
hanko2001 2 years ago