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The Strong Nuclear force has a range of 2.5x10-15 meters. Beyond this, the force is insignificant and negligible for all calculations.

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Fundamental forces Shortest to longest range in the four fundamental forces?

The four fundamental forces from shortest range to longest range are: Strong nuclear force - operates within the nucleus of an atom, holding protons and neutrons together. Weak nuclear force - responsible for certain types of radioactive decay and has a range comparable to the diameter of an atomic nucleus. Electromagnetic force - acts between charged particles and has an infinite range in a vacuum. Gravitational force - the weakest force but acts over infinite distances, affecting all objects with mass.


What is non-fundamental force?

Non-fundamental forces are forces that arise as a result of more fundamental forces acting between the particles that make up matter. Examples include friction, tension, and normal forces, which are all macroscopic manifestations of electromagnetic interactions at the atomic level.


What are all the forces called?

The four fundamental forces in nature are gravity, electromagnetism, the strong nuclear force, and the weak nuclear force.


What are forces between particles?

There are four fundamental forces in nature, the strong, electromagnetic, the weak and gravitational. All forces between particles can be traced back to these.


Is strong nuclear force is strongest of all 4 fundamental forces?

The strong interaction (strong force) and weak interaction (weak force) as well as the electromagnetic force are fundamental forces. The only one "missing" from this lineup is gravity, the fourth fundamental force in the universe.


What are the types of forces for example magnetism and electricity?

There are a few fundamental forces. Nuclear Weak, Nuclear Strong, Electromagnetic and Gravitational. All other 'forces' are derived.


What is the most fundamental of the physical sciences?

Cosmology details the chemical evolution of our universe, explaining the origin of the 92 naturally occurring elements. The fundamental forces of gravity, electromagnetism, strong and weak nuclear forces are all bound up in cosmology. If I had to choose a fundamental branch of science, I would go with cosmology.


What is the fundamental difference between the forces of gravity and electromagnetism?

The fundamental difference between the forces of gravity and electromagnetism is that gravity is a universal force that acts on all objects with mass, while electromagnetism is a force that only acts on objects with electric charge. Gravity is a long-range force that attracts objects towards each other, while electromagnetism can attract or repel objects depending on their electric charge.


How many basic forces are there in the universe?

There are four fundamental forces in the universe: gravity, electromagnetism, the strong nuclear force, and the weak nuclear force. These forces govern how matter interacts at both macroscopic and microscopic scales.


How does string theory propose to unify the fundamental forces of nature through the concept of 9-dimensional strings?

String theory proposes to unify the fundamental forces of nature by suggesting that all particles are actually tiny, vibrating strings in a 9-dimensional space. These strings can vibrate in different ways, creating different particles and forces, ultimately aiming to provide a unified explanation for all the forces in the universe.


What is the study of the tiny particles that make up all things?

The study of the tiny particles that make up all things is called particle physics. Particle physicists study the fundamental particles that make up matter and their interactions with forces in the universe. This field aims to understand the nature of these particles and the fundamental forces that govern their behavior.


What are the key principles and implications of the tong string theory?

The key principles of the tong string theory involve the idea that fundamental particles are actually tiny strings vibrating at different frequencies. This theory suggests that all particles and forces in the universe are manifestations of these vibrating strings. The implications of this theory include the potential unification of all fundamental forces in physics and a deeper understanding of the nature of the universe at its most fundamental level.