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What two particles are attracted to each other?
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.
What would happen if protons and electrons were not attracted to each other?
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.
Why electrons are attracted to protons?
Particles of opposite charges attract each other. Protons have a positive charge, electrons have a negative charge.Particles of opposite charges attract each other. Protons have a positive charge, electrons have a negative charge.Particles of opposite charges attract each other. Protons have a positive charge, electrons have a negative charge.Particles of opposite charges attract each other. Protons have a positive charge, electrons have a negative charge.
Do the protons and electrons hold an atom together?
Atoms are held up together by sharing electrons (covalent bonding) or by transfer of electrons (ionic bond).
Do protons and electrons interact?
Yes, protons and electrons interact through electromagnetic forces. Protons have a positive charge, while electrons have a negative charge, so they are attracted to each other. This interaction is essential for the structure and behavior of atoms.
Why is it important that the electrons and protons are attracted to each other?
It is important for electrons and protons to be attracted to each other because this electrostatic force holds the atom together. Protons are positively charged and located in the nucleus, while electrons are negatively charged and orbit the nucleus. The attraction between them creates a stable structure, allowing atoms to form bonds and create matter.
What would be attracted to a proton?
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.
Can protons neutrons and electrons stand alone?
in extreme situations including the state of matter plasma, but they are inherently attracted to each other.
Do electrons and protons repel?
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:)
Which two subatomic particles have an attractive force?
There are four fundamental forces known in the universe:GravityElectromagneticStrong ForceWeak ForceDifferent subatomic particles are attracted to each other depending upon the force in question. Gravity is so weak that it does not play a role in the subatomic world..ElectromagneticProtons are attracted to electrons..StrongProtons and neutrons are attracted to other protons and/or neutrons inside the nucleus..WeakQuarks are attracted to other quarks and to electrons/positrons inside protons and neutrons
What particles are attracted as a result of the electrostatic force?
Charged particles such as electrons and protons are attracted to each other as a result of the electrostatic force. Positive charges are attracted to negative charges, while particles with like charges (positive-positive, negative-negative) repel each other.
Are all electrons attracted to each other?
Electrons have a negative charge, so they will repel away from one another. Electrons are attracted only to protons or other positive charges. if your question is whether,a negative charge attracts other, it is possible,if you place a charge of less magnitude near a charge of greater magnitude, one can attract other.this is due to the fact that, induction charges are set up in the lesser magnitude charge due to the greater magnitude charge.
