History of the Atom Scientists and Their Contribution to the Model of an Atom
1700s 1800s 1900s History of the Atom Timeline 1766 1844 Antoine Lavoisier makes J.J. a substantial Thomson number discovers of contributions the to the electron field of and Chemistry proposes the Plum Pudding Model in 1897 1871 1937 Niels Bohr proposes the Bohr Model in 1913 1887 1961 James Chadwick discovered the neutron in in 1932 460 370 BC 0 Democritus proposes the 1 st atomic theory 1743 1794 Erwin John Dalton Ernest Rutherford Schrodinger proposes performs his the Gold Foil describes atomic theory Experiment in in 1909 the electron 1803 cloud in 1926 1891 1974 1885 1962 Click on picture for more information 1856 1940
Democritus (460 BC 370 BC) Proposed an Atomic Theory (along with his mentor Leucippus) which states that all atoms are small, hard, indivisible and indestructible particles made of a single material formed into different shapes and sizes. Aristotle did not support his atomic theory Image taken from: https://reichchemistry.wikispaces.com/t.+glenn+ Time+Line+Project
Alchemists (500 BC 1720) Now, they wanted to live forever, so they started out with trying to make a potion that could make them live forever. They didn t succeed, but they did make many experiments, and the scientific method. They also kept careful records.
Antoine Lavoisier (1743 1794) Image taken from: www.ldeo.columbia.edu/.../v1001/geo time2.html Known as the Father of Modern Chemistry Was the first person to generate a list of thirtythree elements in his textbook Devised the metric system Was married to a 13year old MarieAnne Pierette Paulze; she assisted him with much of his work Was a taxcollector that was consequently guillotined during the French Revolution Discovered/proposed that combustion occurs when oxygen combines with other elements Discovered/proposed the Law of Conservation of Mass (or Matter) which states, in a chemical reaction, matter is neither created nor destroyed
John Dalton (1766 1844) In 1803, proposed an Atomic Theory which states: o All substances are made of atoms; atoms are small particles that cannot be created, divided, or destroyed. o Atoms of the same element are exactly alike, and atoms of different elements are different o Atoms join with other atoms to make new substances Calculated the atomic weights of many various elements Was a teacher at a very young age Was color blind Image taken from: chemistry.about.com/.../john Dalton.htm
1898 Marie & Pierre Curie They both picked up on Becquerel s work on uranium, which lead them to find the elements radium and polonium. Though Marie went further with the radioactivity of elements, she didn t get very far. All she said was, they were somehow disintegrating over time and emitting radiation that exposed the plate. ~ Marie Curie http://www.neoam.cc.ok.us/~rjones/pages/online1014/chemistry/chapter_8/pages/history_of_atom.html#becquerelcurie%20anchor Pierre went on to say that atoms might be composed of even smaller things.
Henri Becquerel (18511908) He described radioactivity. He found this out from unknown xrays waves, which were produced by uranium. Penetrating radiation was also discovered by Becquerel. Discovered that uranium was able to expose a photographic plate on black paper, and didn t depend on the chemical state. Image taken from: chemistry.about.com/.../henribecqu erel
1900 Max Planck He was the person who came up with the original quantum theory. To come up with this, all he did was research from pervious scientists and a little bit on his own, and then wrote a book on the quantum theory (the theory: the behavior or matter and energy in an atom). He also was looking at color changes from energy. He also made a math equation to help with this theory.
1905 Albert Einstein First, he found that nature and matter intertwine somehow, the theory of measurement came about from this. Second, he publish 5 papers on electrons. These contributed to the quantum mechanics. He said, light consists of quanta, bundles of energy which behave somewhat like particles. ~Albert Einstein http://www.crystalinks.com/einstein.html
1908 Robert Millikan He was by far the most famous American scientist. He wanted to find the electrical charge of electrons. He measured water droplets, and that wasn t successful, so he measured oil droplets, where all this proved electrons were negatively charged. He also was a professor for many years, and wrote many textbooks on chemistry.
J.J. Thomson (1856 1940) Image taken from: www.wired.com/.../news/2008/04/d ayintech_0430 Proved that an atom can be divided into smaller parts While experimenting with cathoderay tubes, discovered corpuscles, which were later called electrons Stated that the atom is neutral In 1897, proposed the Plum Pudding Model which states that atoms mostly consist of positively charged material with negatively charged particles (electrons) located throughout the positive material Won a Nobel Prize
Ernest Rutherford (1871 1937) In 1909, performed the Gold Foil Experiment and suggested the following characteristics of the atom: o It consists of a small core, or nucleus, that contains most of the mass of the atom o This nucleus is made up of particles called protons, which have a positive charge o The protons are surrounded by negatively charged electrons, but most of the atom is actually empty space Did extensive work on radioactivity (alpha & beta particles, gamma rays/waves) and was referred to as the Father of Nuclear Physics Won a Nobel Prize Was a student of J.J. Thomson Was on the New Zealand $100 bill Image taken from: http://www.scientificweb.com/en/physics/biographies/er nestrutherford.html
1938 Otto Hahn & Lise Meitner While working in a lab, Otto Hahn discovered radiothorium, and then later discovered 5 more elements. He also discovered radioactive recoil. Lise Meitner was he partner when they discovered the isotope of protactinium. His biggest discovery was barium as a fission element. He combined results with Otto Frisch and they came up with nuclear fission. He was testing uranium and how it busted into lighter elements. Lise always studied radioactivity. She, herself, discovered the auger effect.
Niels Bohr (1885 1962) Image taken from: commons.wikimedia.org/wiki/file:ni els_bohr.jpg In 1913, proposed the Bohr Model, which suggests that electrons travel around the nucleus of an atom in orbits or definite paths. Additionally, the electrons can jump from a path in one level to a path in another level (depending on their energy) Won a Nobel Prize Worked with Ernest Rutherford
Erwin Schrodinger (18871961) In 1926, he further explained the nature of electrons in an atom by stating that the exact location of an electron cannot be stated; therefore, it is more accurate to view the electrons in regions called electron clouds; electron clouds are places where the electrons are likely to be found Did extensive work on the Wave formula Schrodinger equation Won a Nobel Prize Image taken from: nobelprize.org/.../1933/schrodinger bio.html
James Chadwick (1891 1974) Image taken from: www.wired.com/.../news/2009/02/d ayintech_0227 Realized that the atomic mass of most elements was double the number of protons discovery of the neutron in 1932 Worked on the Manhattan Project Worked with Ernest Rutherford Won a Nobel Prize
1951 Glenn T. Seaborg Glenn was best known for identifying and discovering elements that were heavier then uranium. He also isolated 10 elements. He also proposed the actinides in the element table. He discovered these elements just by separating different elements, and combining different elements.
1964 Murray GellMann & George Zweig Murray Gell Mann was an American physicist who received a Nobel Prize for his theory on elementary particles. He also found that all the elements of an atom are held together by quarks. To find this, he blasted high speed electrons into a hydrogen atom. George Zweig proposed the existence of quarks. He thought of them as aces, because he guessed there were four quarks in every atom. Now, in the same year, both these guys proposed the idea of quarks. They tested electrical charges, and that how the numbers for quarks came about.
Werner Heisenberg Heisenberg Uncertainty Principle It is impossible to determine the position and velocity of an electron simultaneously. 1925
Heisenberg uncertainty principle In order to observe an electron, one would need to hit it with photons having a very short wavelength. Short wavelength photons would have a high frequency and a great deal of energy.
Progression of the Atomic Model + + Electron Cloud The structure of an atom, according to: James Ernest Erwin J.J. Democritus Neils Schrodinger Chadwick Thomson Rutherford Bohr& John Dalton