"We thus arrive at the important result: Events that are simultaneous with reference to the embankment are not simultaneous with respect to the train," said Einstein. The principle of relativity says that there is no way to decree that the embankment is "at rest" and the train "in motion." We can say only that they are in motion relative to each other. So there is no "real" or "right" answer. There is no way to say that any two events are "absolutely" or "really" simultaneous.43 This is a simple insight, but also a radical one. It means that there is no absolute time. Instead, all moving reference frames have their own relative time. Although Einstein refrained from saying that this leap was as truly "revolutionary" as the one he made about light quanta, it did in fact transform science. "This was a change in the very foundation of physics, an unexpected and very radical change that required all the courage of a young and revolutionary genius," noted Werner Heisenberg, who later contributed to a similar feat with his principle of quantum uncertainty."