the chemists goal is to understand the atoms that compose it
Atoms and molecules are submicroscopic and it is their behavior that determines the macro behavior of chemicals in bulk.
The Microscopic world is the system which has the small scale(size), of order of atomic dimension (about 10 A or less), and it characterizes the properties of individual particles, but Macroscopic world is the system which has the large scale (size) which can be seen with ordinary sense (of order of one micron) and it characterize the system as as whole . Thanks...
This is a problem of atomic physics !
a swarm of bees surrounding an enemy insect
Chemists began to better understand the properties of matter. ..DameDash DatGuy was here
A paper clip is a mechanical bond in the macroscopic world. A covalent bond is when two atoms share a pair of electrons while an ionic bond is when one atom donates an electron to another atom, resulting in both atoms having an electrical charge.
No, an atom is not an ecosystem. An ecosystem refers to a community of living organisms and their interactions with the environment, while an atom is the basic unit of matter. Ecosystems are macroscopic and involve multiple organisms, while atoms are microscopic and do not involve living organisms.
Just as astronomy mapped the solar system and universe, chemistry actually has already become the "astronomy of the molecular world." Scientists used macroscopic manipulation of chemicals in the laboratory to learn about and understand the microscopic world of the atom and molecule in the nineteenth century. This knowledge has and must be expanded as the molecular "world" is mapped and manipulated.
oxygen hydroxide - - - - - Are you doing organic or inorganic chemistry? This group has two names. Inorganic chemists call this a Hydroxide group. Organic chemists call it an Alcohol group.
No. Atoms are submicroscopic, meaning they are too small to be seen even with a microscope.
A submicroscopic particle is an entity that is too small to be viewed by any visible means (Including our most powerful microscopes) and can only be determined to BE by mathematical equation.
Very many, and much to say about all of them. Try these in Wikipedia for a start: Aristotle, Dalton, Rutherford, Geiger and Marsden, Chadwick, Bohr.