Difference between quantem physics and particle physics

The main difference between quantum physics and particle physics is that quantum physics operates at the smallest level of atomic energy, while particle physics deals with substances that make up matter and radiation. These two branches of physics are different from each other, but quantum physics is often applied to particle physics. In fact, particle physics is called "high energy physics" because it describes the interaction of particles with high energy. In quantum physics, we study the nature of small-scale energy levels of atoms. Are Another name for it is mechanics because it describes the mechanical properties of atoms.

 

According to quantum physics, energy and speed are antithetical. In history, the concept of quantum mechanics was born with the results and theories of Max Planck (black body radiation) and Einstein (photoelectric effect). Early quantum mechanics, He became famous in 1920 with the works of Aaron Scur Younger, Werner Heisenberg, Max Bourne, and others. These include emitting diodes, lasers, transistors, microprocessors, medical and research imaging such as magnetic resonance imaging, and electrons. The "microscope" is a branch of particle physics, in which we study the nature of the particles that make up matter and radiation.

 

The term particle can refer to different things, but in particle physics, we usually talk about the smallest capable particles. Subatomic particles include protons, neutrons, electrons, etc., which are formed by radioactive and scattering processes. Furthermore, particle physics deals with the dynamics of these particles such as wave-particle double. They are useful concepts in studying particles. The standard model presents the dynamics of subatomic particles. This model describes the classification of all particles, their strength, weakness, and electromagnetic interaction.

 

In physics, quantum theory refers to the explanation of the electrons, protons, and neutron particles that make up matter and also to examine how these particles interact with each other and with energy. The name of quantum theory. It is based on the fact that this theory interprets matter and energy in the universe concerning a single and indivisible component called "quanta". Quantum theory explains the laws that help us develop statistics about the results of experiments in physics or biological systems.

 

It also helps to understand how our world works. If two electrons are created together, they become entangled forever, regardless of the distance between the two electrons. A change in the quantum spin will cause an instantaneous change in the spin of the other electron. If you move an electron on one side of the universe up, down, or back and forth with short, instantaneous shocks. So an invisible force travels several million light-years and immediately affects other electrons, causing a change in motion.

 

 This journey is several million years faster than technically possible time. In principle, the distance between two electrons, as far as possible, is the width of the entire universe, and the two interact with each other in such a way that If it does, it will have an immediate effect on the other electron - that is, the information is traveling faster than the speed of light.

 

Although scientists are working on the limitations of transmitting information, no one has rejected the theory that there is an invisible force in the universe that can instantly detect matter even millions of light-years away. Can affect - so at the time of the Big Bang there was a time in the past when every atom in the universe was focused on one point. This means that everything is linked to each other. Everything is quantumly entangled - some scientists have gone so far as to claim that quantum entanglement shows. That there is no such thing as space, everything in the universe is touching. Einstein thought it was ideologically implausible.

 

The connection between entangled particles is one of the deepest secrets of quantum mechanics. These connections are a fact of proven nature, but it is very difficult to try to explain them philosophically. Some scientists still call it the strange magic of quantum. One of the strangest aspects of quantum mechanics is that An object can be present and non-existent at the same time if a particle is moving along several different paths, or is capable of being present in many different ways, the principles of quantum mechanics Allows to travel and exist.

 

Experts say that if they try to record their actions, they immediately choose a path - when it happens to one particle, it immediately affects the other particle. Double Slit and Single Slit experiments have shown that when these particles are observed, they are known to

N is observed, then they change their attitude. This is proof of the presence of intelligence in them. A force that has knowledge connects all the free electrons.

 

Everything in this force is known by its Omniscient. Another deep quantum mystery for which physicists have no answer is the process of tunneling. This is the strange ability of particles. Also, if the thickness of the barrier is increased, the speed of the tunnel increases - which is an indescribable fact.