The reason colliders like CERN and the many others exist is to study the reactions of smashing particles together in the hope of catching a glimpse of the smaller ones like quarks, gluons, and the fabled "God" particle, the proposed Higgs boson. Colliding the atoms allows for an instant's look at the subatomic particles that make up protons, neutrons, etc. For example, i believe that smashing two protons would yield a series of quarks, the particles which make up protons.
If an atom is broken apart, it releases energy and forms smaller particles such as protons, neutrons, and electrons. This process is known as nuclear fission and is the basis for nuclear power plants and nuclear weapons.
A chlorine atom becomes a chloride ion when it gains one electron to achieve a full outer shell of electrons, becoming negatively charged. This process typically occurs when the chlorine atom interacts with a metal atom in a chemical reaction.
When one atom of oxygen is split, it releases a large amount of energy in the form of heat and light. This process is known as fission and can result in the production of two smaller atoms and several subatomic particles.
When a sodium atom loses an electron in its outer shell, it forms a positively charged sodium ion (Na+). This process happens in order to achieve a stable electron configuration similar to that of a noble gas, which typically have a full outer shell of electrons.
The process of electron affinity for an atom is generally considered to be exothermic.
Atoms cannot be cut in the traditional sense because they are the smallest unit of matter and retain their properties. However, it is possible to split an atom through processes such as nuclear fission, which involves the nucleus of the atom breaking apart into smaller nuclei, releasing a large amount of energy in the process.
When an alpha particle is released by an atom, the atom loses two protons and two neutrons, resulting in a different element being formed. This process is known as alpha decay.
After absorbing energy from light, electrons in an atom can move to higher energy levels or be released from the atom altogether in a process called photoemission.
oil is produce by a long process of smashing heating and dead organism layering.
It can fuse with another atom.
The initial atom is transformed in another atom.
oil is produce by a long process of smashing heating and dead organism layering.
If an atom is broken apart, it releases energy and forms smaller particles such as protons, neutrons, and electrons. This process is known as nuclear fission and is the basis for nuclear power plants and nuclear weapons.
A chlorine atom becomes a chloride ion when it gains one electron to achieve a full outer shell of electrons, becoming negatively charged. This process typically occurs when the chlorine atom interacts with a metal atom in a chemical reaction.
Nomenclature
when an electron is added to an atom, the atom will acquire a negative charge.
When a hydrogen atom is split in a process called nuclear fission, it releases a large amount of energy. The resulting products are usually two smaller atoms, such as helium or lithium, along with some neutrons. This process is the basis for nuclear power generation and nuclear weapons.