Atomic Theory

1. Atomic Theory 1

2. A HISTORY OF THE STRUCTURE OF THE ATOM

3. HISTORY OF THE ATOM Democritus develops the idea of atoms 460 BC he pounded up materials in his pestle and mortar until he had reduced them to smaller and smaller particles which he called ATOMA (greek for indivisible)

4. History • Greek Philosopher Democritus (460-370 B.C.): all matter composed of small atoms atomos = indivisible • 1803, John Dalton (brit.): atoms are the fundamental building blocks of matter

5. Dalton's Postulates Each element is composed of extremely small particles called atoms.

6. Dalton's Postulates All atoms of a given element are identical to one another in mass and other properties, but the atoms of one element are different from the atoms of all other elements.

7. Dalton's Postulates Atoms of an element are not changed into atoms of a different element by chemical reactions; atoms are neither created nor destroyed in chemical reactions.

8. Dalton’s Postulates Compounds are formed when atoms of more than one element combine; a given compound always has the same relative number and kind of atoms.

9. Each element is composed of extremely small particles called atoms. All atoms of a given element are identical. The atoms of different elements are different and have different properties (including different masses). Atoms of an element are not changed into different types of atoms by chemical reactions. Atoms are neither created nor destroyed in chemical reactions. This is the Law of Conservation of Mass. Compounds are formed when atoms of more than one element combine. A given compound always has the same relative number and kind of atoms. This is the Law of Constant Composition. John Dalton’s Atomic Theory(ca 1803)

10. John Dalton’s Atomic Theory Led him to deduce the Law of Multiple Proportions: When two or more elements combine to form more than one compound, the relative masses of the elements which combine will be in in the ratio of small whole numbers. In carbon monoxide, CO, 12 g carbon combine with 16 g oxygen. C:O ratio is 12:16 or 3:4. In carbon dioxide, CO2, 12 g carbon combine with 32 g oxygen. C:O ratio is 12:32 or 3:8.

11. John Dalton’s Atomic Theory Almost right. A good start. very small Structure of the atom after Dalton (ca. 1810)

12. Joseph John Thompson 1898 found that atoms could sometimes eject a far smaller negative particle which he called an ELECTRON

13. J.J. Thomson (1897): Cathode Rays Atoms subjected to high voltages give off cathode rays.

14. J.J. Thomson: Cathode Rays Cathode rays can be deflected by a magnetic field. Cathode rays are negatively charged particles (electrons). Electrons are in atoms.

15. J.J. Thomson – The Electron “Plum pudding” model: Negative electrons are embedded in a positively charged mass. Electrons (-) Unlike electrical charges attract, and that is what holds the atom together. Positively charged mass Structure of the atom after Thomson (ca. 1900)

16. Radioactivity • Radioactivity is the spontaneous emission of radiation by an atom. • First observed by Henri Becquerel (1852-1908). • Marie and Pierre Curie also studied it. • Nobel Prize in 1903 (physics).

17. Studies of Natural Radioactivity Some atoms naturally emit one or more of the following types of radiation: alpha (α) radiation (later found to be He2+ - helium nucleus) beta (β) radiation (later found to be electrons) gamma (γ) radiation (high energy light) α Alpha particles Electrons (-) γ γ Positively charged mass α Somehow gamma radiation is in there, too. Structure of the atom after Becquerel (early 1900s)

18. Ernest Rutherford 1910 oversaw Geiger and Marsden carrying out his famous experiment. they fired Helium nuclei at a piece of gold foil which was only a few atoms thick. they found that although most of them passed through. About 1 in 10,000 hit

19. Radioactivity • Three types of radiation were discovered by Ernest Rutherford: • α particles (positive, charge 2+, mass 7400 times of e-) • β particles (negative, charge 1-) • γ rays (high energy light)

20. Ernest Rutherford (1910) Scattering experiment: firing alpha particles at a gold foil

21. The Nuclear Atom Some alpha particles bounce off the gold foil. This means the mass of the atom must be concentrated in the center and is positively charged! Thompson’s model could not be correct.

22. Ernest Rutherford The Nucleus and the Proton The mass is not spread evenly throughout the atom, but is concentrated in the center, the nucleus. The positively charged particles in the nucleus are protons. Electrons (-) are now outside the nucleus. Structure of the atom after Rutherford (1910)

23. James Chadwick – The Neutron In the nucleus with the protons are particles of similar mass but no electrical charge called neutrons. Electrons (-) are now outside the nucleus in quantized energy states called orbitals. (From Niels Bohr and quantum mechanics) The positively charged particles in the nucleus are protons. n + n Structure of the atom after Chadwick (1932)

24. Niels Bohr 1913 studied under Rutherford at the Victoria University in Manchester. Bohr refined Rutherford's idea by adding that the electrons were in orbits. Rather like planets orbiting the sun. With each orbit only able to contain a set number of electrons.

25. Bohr’s Atom electrons in orbits nucleus

26. Structure of the Atom proton (+) neutron electrons -responsible for the volume and size of the atom, negatively charged 10-10 m nucleus - responsible for the mass of the atom, positively charged 10-14 m