What determines how atoms (and molecules) combine is their electron configuration. In particular, what matters most is what the number (and arrangement) of electrons in what is called the valence shell of the atom. These are the outer-most electrons, and it is these that determine how things react and combine with other atoms and molecules
The five main points of John Dalton's atomic theory are as followed: · Elements are made of tiny particles called atoms. · All atoms of a given element are identical. · The atoms of a given element are different from those of any other element. · Atoms of one element can combine with atoms of other elements to form compounds. · A given compound always has the same relative numbers of types of atoms. · Atoms cannot be created, divided into smaller particles, nor destroyed in the chemical process. A chemical reaction simply changes the way atoms are grouped together.
Democritus and his teacher Leucippus believed several things about atoms. They believed that atoms were homogeneous, that solids were made of atoms, that liquids were made of large atoms, and that sour things were made of sharp atoms.
The main factor that causes elements to react with each other is the tendency of atoms to achieve a stable electronic configuration, typically resembling that of the nearest noble gas. This often involves the transfer or sharing of electrons between atoms, leading to the formation of chemical bonds. Elements with incomplete outer electron shells are more likely to react in order to attain stability, resulting in various chemical reactions.
The main factor is its mass.
The main factor limiting the size of cells is the surface area to volume ratio.
Atoms combine to form compounds. The reason atoms combine is because the two ports that they both use to connect matches in a way.
The main determinant is the number of electrons in the outer shell.
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two factors influence protein quality- the proteins digestibility and its amino acid composition.
When you combine two or more compounds, the various atoms may rearrange themselves to form new compounds etc
Atoms are made up of the smallest form of matter
The refractive index of the prism material is the main factor that determines how much a particular color refracts as it passes through the prism. Different colors of light have different wavelengths, which causes them to refract at slightly different angles, known as dispersion.
Most main sequence stars, including sun, produce heat and light by smashing atoms together to create explosions. Eventually, when the atoms continue to combine, they become too big to combine, and the star dies out. Then, it kind of implodes, and the friction of it becoming too dense makes it expand greatly past its original size, only temporarily. Shortly after, it finally explodes.
The refractive index of the material the prism is made of is the main factor that determines how much a particular color refracts as it passes through a prism. Different colors of light have different wavelengths, which interact differently with the material's refractive index, causing them to bend by different amounts.
The main factor that determines how hot or cold something feels when you touch it is its temperature relative to your skin temperature. If the object is warmer than your skin, it will feel hot, and if it is cooler than your skin, it will feel cold. Other factors like thermal conductivity and surface area can also influence the sensation.
Atoms interact with one another by combining chemically or by binding together. When two or more atoms combine chemically, molecules are formed. When two or more different atoms bind together to form a molecule, this is referred to as a compound.
The arrangement of electrons in atoms determines their chemical properties. Specifically, the number of electrons in an atom's outermost energy level (valence electrons) and how easily those electrons can be gained, lost, or shared with other atoms dictate the chemical behavior of an element.