The electrons, specifically the valence (outer shell) electrons.
The subatomic particle that can be transferred from one object to another is an electron. Electrons carry a negative charge and are exchanged between objects during processes like friction or contact.
The particle of an atom that determines how it will bond with another atom is the electron, specifically the valence electrons. These are the electrons in the outermost shell of an atom and are responsible for chemical bonding. Atoms can share, gain, or lose valence electrons to achieve a stable electron configuration, leading to the formation of covalent, ionic, or metallic bonds.
When a charged particle enters the force field of another charged particle, it experiences an electrostatic force due to the interaction of their electric fields. The nature of this force depends on the charges involved: like charges repel each other, while opposite charges attract. This force can cause the entering particle to accelerate, change direction, or alter its velocity, depending on its initial trajectory and the strength of the field. The result is a change in the motion of the charged particle as it interacts with the field created by the other charge.
A particle with a neutral charge is known as a neutron. Neutrons are subatomic particles found in the nucleus of an atom, alongside positively charged protons. They play a crucial role in stabilizing the nucleus by offsetting the repulsive forces between protons due to their positive charges. In addition to neutrons, neutrinos are another type of neutral particle, but they are much lighter and interact weakly with matter.
There are quantum numbers that describe the location of electrons, if that is what you mean.Answer: by analyzing its interactions with another particle
The subatomic particle that defines the element is the proton. The number of protons in the nucleus of an atom determines the element's atomic number, which differentiates one element from another on the periodic table.
A quark is a kind of subatomic particle, and 3 quarks makes up another subatomic particle (a baryon). A quark and an anti-quark make up another kind of sub-atomic particle, (a meson).
The atom is made up of several subatomic particles.The atom is made up of several subatomic particles.The atom is made up of several subatomic particles.The atom is made up of several subatomic particles.
The subatomic particle that can be transferred from one object to another is an electron. Electrons carry a negative charge and are exchanged between objects during processes like friction or contact.
An antiboson is the antiparticle of a boson, which is a type of subatomic particle that follows Bose-Einstein statistics. When an antiboson interacts with a boson, they can annihilate one another, releasing energy in the process.
A nucleon.
I think you mean "quark" (used to classify hadrons)
An antiparticle is a subatomic particle corresponding to another particle with the same mass, spin and mean lifetime, but with charge, parity, strangeness and other quantum numbers flipped in sign.
Electrons are the subatomic particles responsible for moving electrical current in a conductor. The flow of electrons from one atom to another creates an electric current.
Assuming that you mean the chemical properties, the electrons are what define each element. If you meant subatomic particles, then it doesn't matter; each subatomic particle has unique characteristics.
Another factor that determines the magnitude of the electric potential is the amount of charge on the particle creating the electric field. The electric potential is directly proportional to the charge creating the field.
The number of protons in an atom determines the identity of the element.See these two related questions for more information:[http://wiki.answers.com/Q/What_is_the_atomic_number_and_what_does_it_tell_you_about_the_number_of_protons_in_an_atomWhat is the atomic number and what does it tell you about the number of protons in an atom?]and[http://wiki.answers.com/Q/How_do_you_find_the_number_of_protons_and_electrons_and_neutrons_in_an_atomHow do you find the number of protons and electrons and neutrons in an atom?]