4 thoughts on “Cubics #0 (Basic)

  1. Loved this graph and since I hardly used cubics I thought I would try and recreate this one. Unfortunately for me, I forgot completely how to make this graph. The closest I could get was just a stretched out version of the parent graph, so it has the same fade effect but it is not above the x-axis.

  2. This graph was interesting to me because it doesn’t look like a normal graph, and it looks kind of like a vortex. I knew it was a cubic graph because it had two curves. I changed the slope of the graph, and obtained the two curves. However, I couldn’t get the graph to go above the x axis, like Chris. I tried to shift the equation, but that only moved the whole line up.

  3. Super cool o: I think I got it! Eq.1 is y = x(x-a)(x+a) and eq.2 is a = [-5, -4.95, … 5] and here’s a direct link https://www.desmos.com/calculator/het2gn4rrh

    Since this graph uses a list, I guessed that this graph is basically a collection of a whole lot of cubic graphs. There seems to be three x-intercepts for each cubic graph, and one of those x-intercepts looks like x = 0 since that’s where all of the lines get scrunched up.

    I looked at the outermost graph. The other two x-intercepts are -5 and 5, so the equation for the outermost cubic could be y = (x-0)(x+5)(x-5). So the x-intercepts are probably using the list. I made eq.1 the template equation and eq.2 with the list.

    201 elements in the list? That could be 100 for x>0, 100 for x<0, and 1 at x=0. 5/100=1/20, so I did the list in increments of 0.5.

    It looked a little scary, but then I noticed that the y-axis was zoomed out further than the x-axis in the given picture xD My graph looks like the given graph after zooming the y-axis out far enough o:

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