Which of the Following Describes the Strong Nuclear Force

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Neutrons and protons both nucleons are affected by the nuclear force almost identically. The light side and the dark side.

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The strong nuclear force is one of the four fundamental forces in nature.

. Which of the following describes the strong nuclear force. They result for interaction of every nucleon with the nearest limited number of nucleons. The strong force is the most powerful of all the known forces.

It is equal and opposite to the electric force between. D The strength of the force increases with distance. The strong nuclear force binds protons and neutrons in a nucleus.

The force has two sides. The other three are gravity electromagnetism and the weak force. Weak Nuclear Force Examples.

C The force is very strong and works over very long distances. Which of the following reactions describes when small atoms are combined together to form. It also holds together the atomic nucleus and underlies interactions between all particles containing quarks.

The strong force is felt between nucleons protons and neutrons inside of the nucleus of an atom. However if the distance is anything more than 25 Fermi nuclear force is practically non-existent. A The force is very strong but has a very short range.

B It is stronger than the electric repulsion at small distance scales. Question 1 Which of the following statements best describes the strong nuclear force. Strong nuclear force and weak nuclear force.

The strong nuclear force also called the strong nuclear interaction is the strongest of the four fundamental forces of nature. Without some attractive force a nucleus will be unstable due to the electric repulsion between its protons. The weak interaction plays a key role in radioactive decay the violation of both parity symmetry and CP symmetry and changing the flavor of quarks as in beta decayThe theory that describes the weak force is called quantum flavourdynamics QFD which is analogous to quantum chromodynamics QCD for the strong force and.

The strong force binds quarks together in clusters to make more-familiar subatomic particles such as protons and neutrons. The strong nuclear force. E The force has two sides.

B The electrical force is stronger than the nuclear force. С It is equivalent to the gravitational force. 1 STRONG NUCLEAR FORCE - The strong nuclear force is sometimes referred to as just the strong force or the strong interaction.

The strong nuclear force strongest of all fundamental forces about 100 times the electromagnetic force in strength. The force is very strong and works over very long distances. This force holds quarks together to form protons neutrons and other hadron particles.

Weak nuclear force is weaker than the strong nuclear force with a smaller range than the electromagnetic force. The electrical force pushing protons apart and the strong force acting on both protons and neutrons inside of a nucleus. It acts between fermions with spin 12 basically quarks and leptonsIt has a range of 10¹⁸ meters.

Option 1 is incorrect. This exchange can be likened to constantly hitting a ping-pong ball or a tennis ball back and forth between two people. The strong nuclear force is sometimes referred to as just the strong force or the strong.

C It is the force that gets released when atoms are fused. Since protons have charge 1 e they experience an electric force that tends to push them apart but at short range the attractive nuclear force is strong enough to overcome the electromagnetic force. This is where the strong nuclear force comes in.

Correct option is B As we know that nucleus force is a strong force they are strongest in magnitude. The fundamental strong force or the strong force is a very short range less than about 08 fm the radius of a nucleon force that acts directly between quarks. It does not matter if it is a neutron or proton once the.

The strong nuclear force is one of four fundamental forces in nature. At 1 Fermi the distance between particles in a nucleus is tiny. The force is very strong but has a very short range The electrical force is stronger than the nuclear force.

Option 2 is incorrect. B It makes it possible to separate the particles that make up an atoms nucleus. It is roughly 137 times stronger than the electric force.

The strength of the force increases with distance. Strong force a fundamental interaction of nature that acts between subatomic particles of matter. The strong force originates in a property.

A It is stronger than the electric repulsion at all distance scales. As long as this meson exchange can happen the strong force is able to hold the participating nucleons together. Which of the following statements best describes the strong nuclear force.

This force is strong enough that it overcomes the repulsive force between the two positively charged protons allowing protons and neutrons to stick together in an unimaginably small space. Strong or nuclear force. AIt holds the particles of an atoms nucleus together.

It is stronger than the gravitational force. It is the force that holds quarks together to form the proton and neutron nucleons and its residual nuclear force holds nucleons together in an atoms nucleus to form atoms. E None of these answers.

D It causes electrons to be bound to the nucleus. The nuclear force is identical for all nucleons. The nuclear force is a force that acts between the protons and neutrons of atoms.

The strong nuclear force overcomes the repulsion of the positively charged protons in the nucleus holding it together. The strong nuclear force is created between nucleons by the exchange of particles called mesons. Although it is very strong as the name implies experiments have shown that the strong.

They are short range because the distance between the nucleon 07 fermi which is very small. Which of the following correctly describes the nuclear force that holds the protons of a boron nucleus together. The light side and the dark.

At this range the nuclear force is much stronger than the repulsive Coulombs force that pushes the particles away. They are charged independent. The strong interaction is mediated by the exchange of massless particles called gluons that act.

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