0
What else can I help you with?
What is The repulsive force between proton-proton pairs inside the nucleus is called the?
The repulsive force between proton-proton pairs inside the nucleus is called the electrostatic repulsion force. This force arises due to the positively charged protons within the nucleus experiencing mutual repulsion because they all have the same charge.
What forces are at work inside the nucleus of an Atom What keeps the nucleus together?
Inside the nucleus of an atom, the primary forces at work are the strong nuclear force and the electromagnetic force. The strong nuclear force, which acts between nucleons (protons and neutrons), is the dominant force that holds the nucleus together, overcoming the repulsive electromagnetic force between positively charged protons. This strong force operates at very short distances, binding nucleons tightly within the nucleus. Additionally, the weak nuclear force plays a role in certain types of nuclear reactions, but it is not responsible for holding the nucleus together.
What kind of a force exists between a nucleus and outer level electrons attractive or repulsive?
attractive
What two forces act in the nucleus to create a nuclear tug of war?
The two forces are the strong nuclear force and the electromagnetic force. The strong nuclear force acts to hold the nucleus together by overcoming the repulsive electromagnetic force between positively charged protons. This creates a delicate balance between the attractive strong nuclear force and the repulsive electromagnetic force, resulting in a "nuclear tug of war" within the nucleus.
Why are electrons usually found near the nucleus?
Electrons are usually found near the nucleus due to the attractive force of the positively charged protons in the nucleus. This force keeps the electrons in orbit around the nucleus rather than floating away. The balance between the attractive force of the protons and the repulsive force of the electrons determines the electron's energy level and distance from the nucleus.
What is The repulsive force between proton-proton pairs inside the nucleus is called the?
The repulsive force between proton-proton pairs inside the nucleus is called the electrostatic repulsion force. This force arises due to the positively charged protons within the nucleus experiencing mutual repulsion because they all have the same charge.
Why doesn't the repulsive force of protons in the atomic nucleus cause the protons to fly apart?
The strong nuclear force overcomes the repulsive force of protons, holding them together in the nucleus. This force is much stronger than the electromagnetic force that causes the repulsion between the positively charged protons.
What does electrostatic force do inside the nucleus?
It causes the protons in the nucleus repel each other.
What are the relative strength strengths of attractive and repulsive forces in a stable nucleus?
In a stable nucleus, the attractive nuclear forces (such as the strong nuclear force) are stronger than the repulsive forces (such as the electromagnetic force) between protons. This balance of forces keeps the nucleus stable and prevents it from breaking apart.
What forces are at work inside the nucleus of an Atom What keeps the nucleus together?
Inside the nucleus of an atom, the primary forces at work are the strong nuclear force and the electromagnetic force. The strong nuclear force, which acts between nucleons (protons and neutrons), is the dominant force that holds the nucleus together, overcoming the repulsive electromagnetic force between positively charged protons. This strong force operates at very short distances, binding nucleons tightly within the nucleus. Additionally, the weak nuclear force plays a role in certain types of nuclear reactions, but it is not responsible for holding the nucleus together.
What kind of a force exists between a nucleus and outer level electrons attractive or repulsive?
attractive
What force affects changes of particles in the nucleus?
The strong nuclear force is the force that affects changes of particles in the nucleus. It is responsible for holding protons and neutrons together in the nucleus, overcoming the repulsive electromagnetic force between positively charged protons.
What two forces act in the nucleus to create a nuclear tug of war?
The two forces are the strong nuclear force and the electromagnetic force. The strong nuclear force acts to hold the nucleus together by overcoming the repulsive electromagnetic force between positively charged protons. This creates a delicate balance between the attractive strong nuclear force and the repulsive electromagnetic force, resulting in a "nuclear tug of war" within the nucleus.
Is Gravitation is a universal repulsive force that causes objects to move away from each other?
No, gravitation is not a universal repulsive force. It is actually a universal attractive force that causes objects with mass to be drawn towards each other. This force is responsible for holding planets in orbit around the sun and objects on Earth's surface.
What two competing fundamental forces are at work inside the nucleus of an atom?
The two competing fundamental forces inside the nucleus of an atom are the strong nuclear force, which holds protons and neutrons together, and the electromagnetic force, which causes positive charges (protons) to repel each other. The strong nuclear force overcomes the electromagnetic force at close distances, keeping the nucleus stable.
Why are electrons usually found near the nucleus?
Electrons are usually found near the nucleus due to the attractive force of the positively charged protons in the nucleus. This force keeps the electrons in orbit around the nucleus rather than floating away. The balance between the attractive force of the protons and the repulsive force of the electrons determines the electron's energy level and distance from the nucleus.
What is an example of the strong nucler force?
The force that holds protons and neutrons together in the atomic nucleus is an example of the strong nuclear force. This force is the strongest of the four fundamental forces in nature and is responsible for binding the nucleus together despite the repulsive forces between positively charged protons.
