An entrepreneur looking to grow his business probably wouldn't think to pick the brain of an early 20th-century physicist and pioneer of quantum mechanics. But marketing experts have applied the work ...

Quantum particles are not really just particles…they are also waves. The word uncertainty is used a lot in quantum mechanics. One school of thought is that this means there's something out there in ...

“The Heisenberg Uncertainty Over-ride taps into a limitless pool of destructive energy,” Owlman says in Crisis on Two Earths, describing his evil world-destruction plan. But what is the Heisenberg ...

The Heisenberg uncertainty principle, which has origins in physics, "states that there is a limit to the precision with which certain pairs of physical properties of a particle, such as position and ...

If you’re a physics fan like me, you’ll know the famous Heisenberg Uncertainty Principle that states you cannot know a particle’s exact location and velocity at the same time. If you shine a light on ...

A cornerstone of quantum physics is uncertainty. Heisenberg’s uncertainty principle states the more precisely you pinpoint the position of a particle, the less precisely you can know its momentum at ...

For centuries, scientific progress has depended on more precise tools for measuring the world around us. Galileo’s telescope revealed Jupiter’s moons and shook the geocentric universe. Thomas Young’s ...

The Heisenberg Uncertainty Principle, formulated by physicist Werner Heisenberg in 1927, reminds us that there are fundamental limits to what can be known simultaneously about certain pairs of ...

In quantum mechanics, the Heisenberg uncertainty principle dictates that the position and speed of an object cannot both be known fully precisely at the same time. Researchers now show that two ...

In 1927, Werner Heisenberg was in Denmark working at Niels Bohr's research institute in Copenhagen. The two scientists worked closely on theoretical investigations into quantum theory and the nature ...

In a lab in Boulder, Colorado, physicist Daniel Slichter plays an excruciatingly tiny version of pinball—with an individual atom as the ball. He and his colleagues at the National Institute of ...