When writing the equation, cos(x²)=sin(y²) the following graph is plotted.
For now, I love plotting them even though I don't understand them well. When I know more about Trigonometry I will understand why these graphs are the way they look. Although I don't understand much about trigonometric graphs, I have plotted some trigonometric graphs with beautiful patterns. I am very thankful for Transum and through this, my passion for math has increased. "Hello, I am Soumi Dana, currently studying in 8th grade. Unfortunately it only plots the positive answer to the square root so the circles would not plot. "Absoultely brilliant got my kids really engaged with graphs. "First of all, congratulations for the beautiful job! But I have a question: is there a way to save/download the graphics? thus adjusting the coordinates and the equation. "Would be great if we could adjust the graph via grabbing it and placing it where we want too. "It would be nice to be able to draw lines between the table points in the Graph Plotter rather than just the points. This would mean videos can be played in a graphing utility like desmos.Last day before half term yr 8 were using Graph Plotter to attempt the challenges - all were successful /uzNjAszZxs- Heather Scott October 22, 2017 Also, attempts can be made to represent entire videos as mathematical equations. Attempts can also be made to animate the curves.
In the future, I can learn to incorporate more complex curves like quartic and arc bezier curves. In addition to this, I also managed to explore new libraries in Python and improve my programming skills. Through this I gained a deeper understanding of calculus, finding some real-life applications of it instead of simply learning from a textbook. I had almost no idea how to fix things and had to resort to manually computing some of the curves in order to test the program. I had several first attempts where the graphs looked like this. I am personally proud of the fact that I didn't give up on problems I encountered. The mathematical aspect was made simpler by revisiting an old calculus textbook. I overcame the SVG file formatting problems by using regular expressions instead of XML parsing libraries to extract the paths. In addition, the conversion of the bezier curves posed a challenge due to the mathematical complexity of converting bezier points to parametric equations. The varying formats used made it quite difficult to make the project work for all SVG file formats. One of the main challenges I ran into was understanding the math and the formatting of an SVG file. In addition, Wikipedia and my math textbook were used to understand the math behind the bezier curves. Documentation for SVG files was consulted. The app was built using Python and desmos. For this reason, SVG files are very compact and often used in 2D website design. Unlike other methods of encoding images, like PNG and JPEG, SVG files encode the image using mathematical equations. This program takes advantage of a file format called SVG (Scalable Vector Graphics). These are then graphed on demos using its API. This program converts an image into a set of graphable equations. As someone who also liked playing around with mathematical equations on desmos, a graphing tool, I wanted to make use of this unique file format to display images on desmos using equations. These equations would then be graphed by a computer. Unlike other file formats, SVG files use mathematical equations to store an image instead. When learning about SVG file formats for an Android development class, mobile apps commonly use this format, I came to realize that SVG files held a unique property.