![ordinary differential equations - Numerical methods (for ODE/PDE) that could take approximate solutions/good initial guesses, and further refine it to an certain accuracy - Mathematics Stack Exchange ordinary differential equations - Numerical methods (for ODE/PDE) that could take approximate solutions/good initial guesses, and further refine it to an certain accuracy - Mathematics Stack Exchange](https://i.stack.imgur.com/DfJUU.png)
ordinary differential equations - Numerical methods (for ODE/PDE) that could take approximate solutions/good initial guesses, and further refine it to an certain accuracy - Mathematics Stack Exchange
![Figure 6.93 presents an analog computer designed to solve a differential equation. Assuming f(t) is known, set up the equation for f(t). | Holooly.com Figure 6.93 presents an analog computer designed to solve a differential equation. Assuming f(t) is known, set up the equation for f(t). | Holooly.com](https://holooly.com/wp-content/uploads/2020/10/Capture-593.jpg)
Figure 6.93 presents an analog computer designed to solve a differential equation. Assuming f(t) is known, set up the equation for f(t). | Holooly.com
![A new stable computing method for the serial hybrid computer integration of partial differential equations | Semantic Scholar A new stable computing method for the serial hybrid computer integration of partial differential equations | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/b0716a7085fdcd4349cbcd8954efa086fa4b17e5/2-Figure3-1.png)