ELECTRONS AND PROTONS ARE ATTRACTED TO EACH OTHER. THEY ARE OPPOSITE CHARGES. OPPOSITE CHARGES ATTRACT. IT IS LIKE FORCES THAT DO NOT ATTRACT EACH OTHER. I AM NOT SURE IF IT IS IN THE NUCLEUS THAT THEY ATTRACT. BUT I DO KNOW THAT ELECTRONS ARE ON THE OUTSIDE OF THE NUCLEUS. PROTONS ARE ON THE INSIDE. I REALLY HOPE THIS ANSWERS YOUR QUESTION:)
If protons and electrons were not attracted to each other, atoms as we know them would not exist. The attraction between protons and electrons is what holds atoms together and allows for the formation of molecules. Without this attraction, matter as we know it would not be stable or structured.
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.
No. The opposite of an electron is an antielectron or positron, which has exactly the same mass but opposite charge. A proton has opposite charge from that of an electron, but it is about 1836 times more massive.
Protons and electrons are attracted to each other due to their opposite charges. When they come close together, they can form an atom if the proton is captured by the electron's orbit. If they collide instead, they can interact through electromagnetic forces, potentially creating high-energy interactions.
Protons and electrons are attracted to each other due to their opposite charges. Protons have a positive charge, while electrons have a negative charge, leading to an electrostatic attraction between them.
Negatively charged subatomic particles, such as electrons, will be attracted to a positively charged object. This attraction is due to the opposite charges present, as opposite charges attract each other according to the laws of electromagnetism.
Electrons would be attracted to a proton due to their opposite charges. The positive charge of the proton exerts an attractive force on the negatively charged electron, causing them to be attracted to each other.
ELECTRONS AND PROTONS ARE ATTRACTED TO EACH OTHER. THEY ARE OPPOSITE CHARGES. OPPOSITE CHARGES ATTRACT. IT IS LIKE FORCES THAT DO NOT ATTRACT EACH OTHER. I AM NOT SURE IF IT IS IN THE NUCLEUS THAT THEY ATTRACT. BUT I DO KNOW THAT ELECTRONS ARE ON THE OUTSIDE OF THE NUCLEUS. PROTONS ARE ON THE INSIDE. I REALLY HOPE THIS ANSWERS YOUR QUESTION:)
Yes, protons on opposite sides of a large nucleus are attracted to each other due to the strong nuclear force.
Electrons and protons attract each other because electrons have a negative charge and protons have a positive charge
Proton (+) and Electron (-). Proton carries the positive charge particle of the atomic nucleus while the electron is negatively charged particle that occupy the space around an atomic nucleus.
like forces repel, unlike forces attract(:
If protons and electrons were not attracted to each other, atoms as we know them would not exist. The attraction between protons and electrons is what holds atoms together and allows for the formation of molecules. Without this attraction, matter as we know it would not be stable or structured.
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.
Protons and neutrons attract each other through the strong nuclear force, which is mediated by particles called mesons. This force overcomes the electromagnetic repulsion between the positively charged protons.
It is because both of them are oppositively charged particles. Since a proton is a positively charged particle and an electron is a negatively charged particle, hence they both develop an electrostatic force of attraction.