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Black holes and subatomic particles are a subject of interest in the fields of astronomy, astrophysics, and particle physics. Perhaps the most famous to bring to light the notion that black holes could emit particle/antiparticle pairs and thus lose mass through loss of energy would be Professor Stephen Hawking, who proposed that black holes interact with the universe thermodynamically in this way and could potentially evaporate entirely. This radiation is often known as Hawking radiation.

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Who studies black holes and the particles?

Although the disciplines may overlap with others, it's safe to say that generally astronomers, physicists and astrophysicists study black holes; particle physicists study particles.


Who study on blackholes and the subatomic particles that radiate from then?

Black holes and subatomic particles are a subject of interest in the fields of astronomy, astrophysics, and particle physics. Perhaps the most famous to bring to light the notion that black holes could emit particle/antiparticle pairs and thus lose mass through loss of energy would be Professor Stephen Hawking, who proposed that black holes interact with the universe thermodynamically in this way and could potentially evaporate entirely. This radiation is often referred to as Hawking radiation.


Who studyed black holes and subtomic particles?

Lots of scientists study those topics.


Used to accelerate protons in the study of subatomic particles?

Tevatron.


What kind of Astronomers study black holes?

specifically, "astronomers" that study black holes are called cosmologists.


What is a description of a physicist?

physicist study the natural world from the tinest subatomic particles to the largest.


How do scientists study the properties of subatomic particles through photon collisions?

Scientists study the properties of subatomic particles through photon collisions by using high-energy photons to collide with the particles. This collision allows scientists to observe the interactions and behaviors of the particles, providing valuable insights into their properties and characteristics.


Why are black holes considered strange?

Black holes are strange because we can't study them properly.


What device is used to study tracks left by subatomic particles?

A particle detector is used to study tracks left by subatomic particles. These detectors can be based on various technologies such as silicon detectors, scintillation detectors, or cloud chambers. They help in measuring the properties of particles such as charge, energy, and momentum.


The Wilson chamber is used to study?

The Wilson chamber is used to study the tracks left by charged particles as they pass through a gas or vapour. It helps visualize subatomic particles as they interact with matter, providing information about their properties and behavior. This tool has been instrumental in the field of particle physics for understanding the fundamental building blocks of matter.


What is a subatomic explorer?

A subatomic explorer is a device or experiment designed to study particles and phenomena at the subatomic level, such as electrons, protons, and neutrons. These explorers help scientists understand the fundamental building blocks of matter and the forces that govern their interactions.


What are subatomic particles?

Generally speaking, subatomic particles are particles smaller than an atom. There are the three basic ones that make up atoms, and you probably already know that those are protons, neutrons and electrons.If we delve more deeply into the physics of the subatomic world, more and more particles will appear. At one point, there were literally dozens and dozens of different subatomic particles, and they created what was called a particle zoo. Since then, some newer ideas regarding the world of these tiny particles has arisen, and most of the particles in the zoo were recognized as composite particles made up of a just a few fundamental particles.Begin learning about subatomic particles by developing an understanding of protons, neutrons and electrons. Then find out what makes them up, and move from there to the number and nature of fundamental particles.