I’ve just read the abstract on Wikipedia and I assumed that it might encompass what you do.
Mechanical engineers design and build engines and power plants...structures and vehicles of all sizes...
I thought computer modeling and simulations might be very important in the early stages. Shortly following field tests with miniature models. Even there you might have to program the tools that give shape to the ultimate parts. Though I guess if you work in a highly specialized area, that is not the case.
I couldn’t build a computer, a web browser, a wireless router, an Internet, or a community blog from scratch, but I can still post a comment on LessWrong from my laptop. Mechanical engineers rarely need to program the tools, they just use ANSYS or SolidWorks or whatever.
Edit: Actually, the people who work in highly specialized areas are more likely to write their own tools—the general-interest areas have commercial software already for sale.
I’ve just read the abstract on Wikipedia and I assumed that it might encompass what you do.
I thought computer modeling and simulations might be very important in the early stages. Shortly following field tests with miniature models. Even there you might have to program the tools that give shape to the ultimate parts. Though I guess if you work in a highly specialized area, that is not the case.
I couldn’t build a computer, a web browser, a wireless router, an Internet, or a community blog from scratch, but I can still post a comment on LessWrong from my laptop. Mechanical engineers rarely need to program the tools, they just use ANSYS or SolidWorks or whatever.
Edit: Actually, the people who work in highly specialized areas are more likely to write their own tools—the general-interest areas have commercial software already for sale.