neutron
The subatomic particle that primarily determines how an element will bond to form new substances is the electron, specifically the valence electrons. These are the outermost electrons in an atom and are involved in chemical bonding, allowing atoms to share, lose, or gain electrons to achieve stability. The arrangement of these valence electrons influences the type of bonds an element can form, whether ionic, covalent, or metallic.
the particle size of the sediments within the rock
Ionic charge is determined by the number of electrons in the atom. A neutral atom has the number of electrons equal to the number of protons in the nucleus. An ion is formed when there is a surplus or deficit in electrons
Whether your foot is on it or not.
essentially that's what a lot of elements are, but what makes an element a new element is if it can be reproduced and be stabilized for an amount of time
Subatomic particles are parts of the building blocks of our world. Atoms house protons, neutrons and electrons which are key examples of subatomic particles. Protons, neutrons and electrons themselves are made of even smaller blips called quarks. These minute objects build up the world and control various things like the states of an object, whether it is hot or cold and other key natural events.
Your physician would be the best person to determine whether you have a disability.
Yes, the speed of a particle can affect whether it can escape a liquid. This is because the escape of a particle from a liquid involves overcoming intermolecular forces that hold the particle in the liquid. If the particle has sufficient kinetic energy (which is related to its speed), it can break free from these forces and escape from the liquid.
Context.
density!
The facts.
They can tell whether the nucleus formed is that of a new element or that of an isotope by determining the number of protons inside the nucleus. If the number of protons are different, then it is a different element (not necessarily new). If the number of protons are the same, then it is an isotope.