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the were clever badmans thats how!

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What is the smallest objects that scientists study?

Physicists are currently trying to find proof of the Higgs-Boson particle, also known as the God Particle. This particle is the fundamental unit of everything that contains mass in the universe.


What is the significance of the delta baryon in particle physics?

The delta baryon is important in particle physics because it helps scientists understand the strong nuclear force that holds atomic nuclei together. It is a type of subatomic particle that is made up of quarks, which are the building blocks of matter. Studying the delta baryon can provide insights into the fundamental forces and interactions that govern the behavior of particles at the smallest scales.


What tool do scientists use to break apart the nuclei of atoms?

Scientists use particle accelerators to break apart the nuclei of atoms. These accelerators speed up charged particles like protons or electrons to high energies and then collide them with target atoms, causing the nuclei to break apart. This process allows scientists to study the fundamental components of matter.


What is the process of photon decay and how does it contribute to the understanding of particle physics?

Photon decay is the process in which a photon, a fundamental particle of light, transforms into other particles, such as an electron-positron pair. This process is important in particle physics as it helps scientists understand the interactions and behaviors of particles at the subatomic level. By studying photon decay, researchers can gain insights into the fundamental forces and particles that make up the universe.


Is there any fundamental particle inside an electron?

A fundamental particle (elementary particle) is one that is not made up of other particles. An electron is a good example of a fundamental particle. On the other hand, protons and neutrons are not fundamental particles. They are made up of fundamental particles called quarks (two up and one down for the proton, and two down and one up for the neutron).Assuming electron as fundamental particle,what is it's primary ,in order to sense it's environment?

Related Questions

How did scientists come up up with models?

Scientists come up with models by trying to find a mathematical description of some phenomenon, which will give predictions that can be verified experimentally.


How did scientists come up with models for electric?

dude or women frrom 7s get a ligfew


How did scientists come up with models for bones?

they looked at Leonardo da vinci bone pictures and made models to make it easier to surgery


Scientists use scaled up what to represent atoms?

scaled up models


How do scientists come up with questions?

they come up with a hypothesis


How scientists came up with models?

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What solutions have scientists come up with about tb and badgers?

Scientist have come up with culling (killing) them.


How do scientists come up with ideas?

They have to be naturally clever people.


How scientists come up with idea's?

They have to be naturally clever people.


What is the smallest objects that scientists study?

Physicists are currently trying to find proof of the Higgs-Boson particle, also known as the God Particle. This particle is the fundamental unit of everything that contains mass in the universe.


Why scientists often test the conclusion of other scientists?

Scientists do that because they are skeptical about other scientists' work. They do not usually believe what other scientists have concluded, so other scientists come up with a hypothesis (or simply state a question) as to contradict, or theorize why another scientists' work and conclusions are wrong. In short: Scientists are skeptical and do not believe what another scientist has come up with as a conclusion.


Explain why diffusion is evidence for particle models?

Diffusion occurs because particles move randomly in all directions until they are evenly distributed. This can be explained by the particle model, which states that matter is made up of tiny particles that are constantly in motion. The movement of particles in diffusion supports the idea that substances are composed of particles that are constantly moving.