0
What else can I help you with?
What are the subatomic particles involved in an atom?
These particles are electron, proton, neutron. Protons and neutrons contain quarks and gluons.
Which is not an example of an electrostatic force that exists within the atom?
The gravitational force is not an example of an electrostatic force that exists within the atom. The electrostatic forces within an atom include the forces between protons and electrons, and the forces holding the nucleus together.
What is the subatomic particles are found in the nucleus of the atom?
These particles are neutrons and protons; they are formed from quarks and gluons.
How are electrons held within a atom?
electrostatic force between the nucleus and the electrons.
The force that binds protons and neutrons to each other to form the nucleus of an atom is?
The nuclear exchange force or simply the nuclear force. It is also known as nuclear binding force, but after the discovery of Quarks, the overall concept is changed, now colorforces among quarks and gluons are responsible for these bindings.
How are gluons involved in within the atom?
Strong nuclear forces act through gluons in the nucleus
What are the subatomic particles involved in an atom?
These particles are electron, proton, neutron. Protons and neutrons contain quarks and gluons.
What is the reveal the force that holds the nucleus together?
The force that holds the nucleus together is the strong nuclear force. This force is mediated by particles called gluons, and it is responsible for binding protons and neutrons together in the nucleus.
Forces within the nucleus of an atom?
I'm not entirely sure but I'm pretty sure its electromagnetic force The primary force within the nucleus of an atom is the strong force. Also present is the weak force and the electromagnetic force.
Why is gravitational force weaker than stong nuclear force?
The gravitational force is weaker than the strong nuclear force because it operates over large distances and is always attractive, while the strong nuclear force is a short-range force that acts only within the nucleus of an atom. The strong nuclear force is also much stronger than gravity due to its association with the exchange of particles known as gluons.
What does nucleus of an atom have?
The nucleus of an atom contain protons and neutrons; protons and neutrons contain quarks and gluons.
Where does the strong force come from?
The strong force is one of the four fundamental forces in nature that holds protons and neutrons together in the nucleus of an atom. It is mediated by particles called gluons, which interact with quarks to create the force that holds the nucleus together.
The strong forces is powerful only when neutrons and protons are?
The strong force is powerful only when neutrons and protons are very close together, within the nucleus of an atom. It acts to bind the nucleons (protons and neutrons) together due to the exchange of particles called gluons. Beyond a certain distance, the strong force becomes negligible compared to electromagnetic forces.
what is the atom that elements are made of?
An atom is made from neutrons, protons and electrons; neutrons and protons contain quarks and gluons.
What is the diffirence between nuclear force and weak nuclear force?
Yes. The Strong Nuclear Force is the force that holds the protons and neutrons together in the nucleus and is transmitted by gluons. It is the glue that holds the nucleus together. The Weak Force is responsible for the decay of radioactive elements. It ejects neutrons from the nucleus of a radioactive atom.
How are the protons held together in an atom?
Protons are made up of quarks: two up, one down. The quarks are are held together by gluons and the strong force (similar to gravity, in a way).The protons are then bound to the neutrons by the same strong force.
What does strong nuclear force hold together?
The strong nuclear force holds together protons and neutrons in the nucleus of an atom. It is one of the fundamental forces in nature that overcomes the electromagnetic repulsion between positively charged protons, binding them together in a stable nucleus.
