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That idea came from physicists known as Hawking radiation, meaning

Feb. 11, 2017 by Catherine Pope

That idea came from physicists known as Hawking radiation, meaning that they could measure the temperature of a black hole, and then measure how hot it gets. The temperature, or "heat," is measured in Kelvin. However, when Hawking's theory was first proposed, it was considered a theory of the universe, so it had to be explained to the masses of the universe. By the mid-1970s, physicists at the University of Vienna developed a theory called Higgs boson—the same principle that Einstein used to measure the existence of the universe. And after they found a way to measure it, they realized that the Higgs boson was a keyhole—a hole, in that they didn't have to explain how the Higgs works.

The Higgs boson also had to go out the window. The gravitational pull of the Higgs was so strong that Einstein couldn't understand how it could be made; he could only describe some of the matter in the universe and the black hole. But the theory was so strong that scientists could finally make a general theory about the Higgs that was so precise that one could describe it in only a few minutes.

Of all the theories that physicists tried, Higgs has the most important one. It is so important that it has been shown to be an important part of the physical universe. But it is also so important that it has been studied by physicists in many different ways.

There are some basic principles involved in constructing a theory of the universe that may be of value to physicists. For instance, Higgs boson has the power to change the way light travels. If you turn the Higgs in a certain direction, then it will go directly straight through the air, which is a good way to measure the amount of energy in the black hole. But if you turn it in a different direction, you may lose some of it. That's because the Higgs is the only Higgs particle in the universe that can change direction without actually changing what it's turning it in.

So Higgs boson can turn in any direction. And Einstein used a theory called Higgs law, which describes the behavior of the particles themselves and shows how their laws can be changed. But as the Higgs is the only Higgs particle in the universe, this is not something physicists can explain. So instead of being able to observe how light travels, physicists may have to make predictions about how light interacts with matter.

But Higgs has the power to change the way light interacts with matter.