Note that the dot corresponding to n=1 is part of both \(a_n\) and \(s_n\).To graph \(a_n\) and \(s_n\), set your calculator to Param mode and DrawDot mode. (DrawDot is under GRAPH, MORE, FORMT (F3).) Now under E(t)= make the assignments: x t 1=t, y t 1=...
Part (A): The matrix is a singular matrix because the determinant is 0 with my calculator. Part (B): Once I perform Gauss Elimination with my pivot being 0.6 I arrive at the last row of matrix entries which are just 0's. So would this be why Gauss Elimination for partial pivoting fa...
Infinite series as the limit of its sequence of partial sums In my book, applied analysis by john hunter it gives me a strange way of stating an infinite sum that I'm still trying to understand because in my calculus books it was never described this way. It says: We can use the de...
Note that the dot corresponding to n=1 is part of both \(a_n\) and \(s_n\).To graph \(a_n\) and \(s_n\), set your calculator to Param mode and DrawDot mode. (DrawDot is under GRAPH, MORE, FORMT (F3).) Now under E(t)= make the assignments: x t 1=t, y t 1=...