Atomic Theory Timeline

Is the art of understanding, deconstructing, and reconstruction of matter. It is composed of the four basic elements. (fire, earth, water, and air)

Everything is composed of 'atoms', which are physically but not geometrically indivisible.

Disagreed with Democritus.
Everything is a combination of the four elements: earth, fire, water, and air.
Theory that a mass of incomprehensible size was everywhere: he called this 'hyle' (there was no separate particles for each material, it was all one.)

Theory of atom-ism. The world is composed of an infinite number of solid, indestructible, indivisible atoms that interact with one another. What separates the atoms is the void, which is empty space.

Presented the first scientific classification of minerals (based on their physical properties) and described many new minerals: their occurrence and mutual relationship.

Paracelsus Theory: combination of Aristotelian Theory of Matter, alchemical correspondences, chemical therapy in medicine

Wrote a book that overturned Aristotle's conception of the four elements, and replaced it with the modern idea of an element, namely that an element is a substance that cannot be separated into simpler components by chemical methods.

Theorized a mechanical universe with small solid masses in motion.

Accepted John Dalton's atomic theory and made a new system of chemical symbols.

Law of Conservation of Mass: matter cannot be created or destroyed, only rearranged.
Discovered that water is made of Hydrogen and Oxygen.

Law of Definite Proportions: A pure substance will always contain the same elements, combined in the same proportion by mass.

Law of Combining Volumes: At a constant temperature and pressure, volumes of reacting gases and gaseous products are in the ratio of small numbers.

Law of multiple proportions: same two elements can combine in different compound; ratio of first element is fixed, while the second element varies.
Proposed first atomic theory, all matter is made up of tiny indivisible atoms, atoms of the same element are the same, atoms of different elements are different, atoms combine in while number ratios to form compounds.

Avogardo's hypothesis: equal volumes of gases under the same conditions that have the same number of particles.

Formulated the table of elements listing them by their atomic weight and grouping them into families with similar characteristics, 'periodic law'.

Discovered x-rays.

Discovered that uranium ores emit radiation, resembling x rays because it exposed film.

Used cathode rays to discover the electron, measured the bending of the rays to determine the charge to mass ratio of the electron.
Modified the cathode ray tubes to soon discover the positively charged proton.

Quantum theory; energy is not emitted constantly, but in small plackets called quantum.

Photoelectric effect; when light of a certain frequency shines on a metal, electrons are emitted.

Performed the oil drop experiment which determined the charge of electrons as negative.

Studied substances, especially alpha particles. Conducted the gold foil experiment; he bombarded gold foil with alpha particles, most particles passed through the foil, but some were deflected. He concluded that the atom is mostly empty space, but also discovered the very small nucleus core.

Improved upon the atomic model by trying to answer the question;
Why aren't electrons pulled into the nucleus?
Electrons travel in definite energy levels without radiating energy
Electrons in each orbit have a certain amount of energy
Energy increases as the distance from nucleus increases.
Energy loses energy by dropping energy levels.

Used x ray experiments to discover the atomic number of an element.

Discovery of the Compton effect, which demonstrated the particle nature of electromagnetic radiation

Debroglie's hypothesis; if waves can behave like particles, then particles can behave like waves.

Schrodinger's wave equation:
Treat the electron like a wave
Developed an equation used to determine the probability of finding the electron in any given place around the nucleus.
Solutions to the equation are quantum numbers.

Heisenberg's uncertainty principle: it's impossible to know both position and velocity of an electron at the same time.

Discovered the neutron.

Description and classification of subatomic particles.

Discovery of W and V particles.

Higgs Boson, a subatomic particle; the theoretical discovery of a mechanism that contributes to our understanding of the origin of mass of subatomic particles