# I need help to this question see the file for more infomartion :) b) Write the recursion equation for the differential equation corresponding to Euler’s method.

I need help to this question see the file for more infomartion 🙂 b) Write the recursion equation for the differential equation corresponding to Euler’s method.

I need help to this question see the file for more infomartion 🙂 b) Write the recursion equation for the differential equation corresponding to Euler’s method.
During a growth test, some students periodically take samples from a flask with E-coli bacteria to examine the amount of bacteria. It turns out that the growth in the amount of bacteria can be approximately described by the differential equation with the initial value The solution curve is shown in figure 3. In figure 4, a piece of the solution curve is zoomed in. The three points A, B and C seen in Figures 3 and 4 have the coordinates A (0; 30), B (10; 36,11) and C (20; 43,33) and are all on the solution curve for the differential equation. a) Determine the line elements (x; y; α) at ​​points A, B and C b) Write down the recursion equation for the differential equation corresponding to Euler’s method. 