symbolipoint said:
That second paragraph is interesting. Why is this? Engineers and physicists are both smart types of people. They both study some physics or more. One of them learns how to investigate and design; and the other learns to understand and explain and test ideas (or theories). They both are problem solvers and use a bunch of Mathematics. What is the big difference making the physicists able to solve problems in engineering that the engineers are not able? Does this really depend on the person and not the educational degree field?
Engineering is a conservative field. In most cases, we say, "thank God for that." Conservative means demanding "proven technology" with only incremental advances that are deemed safe enough to risk. Imagine if designers of bridges, skyscrapers, and nuclear power plants were not conservative.
Engineering projects almost always have defined goals, limited budgets, and schedules. There are exceptions. Engineers do pilot projects and experiments from time to time.
I think it was on Big Bang Theory that I heard the phrase "
Nobel prize winners free to waste the rest of their lives studying unanswerable questions." That may be a bit harsh, but it captures a bit of the truth underlying
@Svein 's comment. Scientists get paid for that and even honored for it. Engineers don't.
One can say that engineering is "applied science" but the science must exist before it can be applied.
But it is important to acknowledge that the modern world can't exist without both scientists and engineers. Science brought us transistors, but engineering brought us microelectronics. That statement can't be 100% true, but it probably is 80% true.
The irony is that this question arises on PF, where it is scientists more than engineers who bear the burden of telling posters why perpetual motion, FTL, and other "crackpot" ideas aren't possible. It would be great if
@Svein could enlist the physicist he talked about to be a PF member. We could direct all those perpetual motion questions to him.
