1. Choose 3 points p; = (Xinyi) for i = 1, 2, 3 in Rể that are not on the same line (i.e. not collinear). (a) Suppose we want to find numbers a,b,c such that the graph of y ax2 + bx + c (a parabola) passes through your 3 points. This question can be translated to solving a matrix equation XB = y where ß and y are 3 x 1 column vectors, what are X, B, y in your example? (b) We have learned two ways to solve the previous part (hint: one way starts with R, the other with I). Show both ways. Don't do the arithmetic calculations involved by hand, but instead show to use Python to do the calculations, and confirm they give the same answer. Plot your points and the parabola you found (using e.g. Desmos/Geogebra). (c) Show how to use linear algebra to find all degree 4 polynomials y = $4x4 + B3x3 + B2x2 + B1x + Bo that pass through your three points (there will be infinitely many such polyno- mials, and use parameters to describe all possibiities). Illustrate in Desmos/Geogebra using sliders. (d) Pick a 4th point 24 = (x4, y4) that is not on the parabola in part 1 (the one through your three points P1, P2, P3). Try to solve XB = y where ß and y are 3 x 1 column vectors via the RREF process. What happens?