1. U NIT 3 Atomic Theory

2. A TOMIC SCIENTISTS Video 3.1

3. D ALTON (1808) Experiments lead to his discoveries: Elements are made up of identical atoms which cannot be created or destroyed. They can combine to form compounds in whole number ratios. Chemical reactions involve the breaking or creating of bonds but never changing elements into new elements.

4. J.J. T HOMPSON (1898-1903) Discovered negatively charged particles called electrons using the cathode ray tube.

5. J.J. T HOMPSON Constucted the plum pudding model. Assumed there was positive charge since the atom is neutral.

6. R UTHERFORD (1911) Shot high speed alpha particles ( 4 2 He) at gold foil believing they would be deflected. Some were deflected. He discovered a dense positive nucleus. where protons and neutrons are stored.

7. R UTHERFORD But most particles went straight through. He theorized the atom is mostly empty space. Created the nuclear model of the atom.

9. N EILS B OHR Rutherford’s model couldn’t explain why electrons didn’t collapse into the nucleus. Bohr proposed that electrons move in specific paths called orbitals.

10. N EILS B OHR Energy can be added or removed, forcing electrons to change orbitals and producing light spectra.

11. S UBATOMIC P ARTICLES Video 3.2

13. S UBATOMIC P ARTICLES LocationChargeMass Protons (p + ) Nucleus+11 a.m.u. Neutrons (n o ) Nucleus01 a.m.u. Electrons (e - ) Orbitals0

14. V OCABULARY Atomic Number: number of protons/ the identity of an element. The periodic table is arranged by atomic number. Mass Number: number of p + and n 0. The mass number is a whole number (not reported on the periodic table. Depends on the atom).

15. A TOMIC N OTATION : Subtract atomic number from mass number to find the ________________ Number of neutrons

16. I SOTOPES Video 3.3

17. V OCABULARY Isotopes: Two atoms of the same element have the same number of p + but different number of n 0, therefore, different mass number.

18. I SOTOPES H-1, H-2, and H-3 are isotopes. Write their isotopic notation and calculate their number of neutrons. Do the same for O-16, O-17, and O-18.

19. I SOTOPES What aren’t S-32 and P-32 isotopes? Although they have the same mass, they do not have the same number of protons. They are not the same element. What does the prefix “iso” mean? “iso” means “the same.” In the case of isotopes, the particles have the same number of protons and a different number of electrons.

20. A TOMIC M ASS Video 3.4

21. V OCABULARY Atomic Mass: Weighted average of masses of all naturally occurring isotopes of an element.

22. T HINK : Cr-50, Cr-52, and Cr-53 are isotopes. The atomic mass of chromium is about 51.9 grams. Which isotope is more abundant? Cr-52 because the atomic mass is closest to that isotope’s mass number, thus bringing the average closer to it’s mass. What could be another word for atomic in atomic mass? average

23. C ALCULATING THE A TOMIC M ASS 1. A mass spectrometer determines a sample of copper has 69.09% Cu-63 and the rest is Cu-65. Calculate the average mass..6909(63) + (1-.6909)(65) =63.62 amu

24. C ALCULATING THE A TOMIC M ASS 2. Calculate the mass of 55.00% Ag-107 and 45.00% Ag-109..5500(107) +.4500(109) =107.9 amu

25. B OHR D IAGRAMS Video 3.5

26. B OHR D IAGRAMS The atom has gone through many theories. Bohr is one of the most precise scientists to theorize the atom so far. Bohr stated that atoms must be in specific paths called orbitals. This lead to the “planetary model’ of the atom.

27. B OHR D IAGRAMS 1. Each electron has a specific amount of energy that keeps it away from the nucleus. The farther away the electron, the more energy it has. 2. Electrons are grouped into energy levels dependant on their energy. Electrons cannot ‘limbo” between two levels. But, they can change levels. 3. Electrons start in the lowest energy level permitted, called ground state. Energy can be absorbed and electrons will move up to a higher level, called the excited state.

28. B OHR D IAGRAMS 4. The first energy level can only hold 2 electrons. The second level can hold 8 electrons. The third can hold 18. 2-8-18-32 5. The element’s electron configuration shows how many electrons are in each level in the ground state. Configurations are in each element box on the periodic table.

29. B OHR D IAGRAMS 6. The outer electrons in the diagrams or the last number in the configuration are called the valence electrons. 7. Elements with the same number of valence electrons are in the same group of the periodic table and they will have very similar properties.

30. L IGHT S PECTRA Video 3.6

31. ER ER is energy that exhibits wave like behavior and travels through space at the speed of light (c = 3x10 8 m/s) Wavelength( λ ):distance between 2 peaks. Frequency(v): waves per second Which wave is more frequent? Which has a longer wavelength?

33. R EMEMBER L IGHT S PECTRA AND B OHR ? Energy is released in quanta (packets) to produce light. When light is passed through a prism, colors may be seen at various wavelengths. Bohr measured the energy emitted to create his quantum model of the atom.

34. T HE Q UANTUM M ECHANICAL M ODEL The newest of all the theories of atoms in called the quantum mechanical model (QMM). This theory states that there is actually no way of knowing where electrons are at any time due to their small size and quick movements. Therefore, we can only provide a probability of finding an electron in a specific area. Protons and neutrons are still in the nucleus.

35. D RAW THE L EWIS STRUCTURES FOR THE FOLLOWING : 1. Na 2. Mg 3. Al 4. C 5. P 6. O 7. Cl 8. Ar