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Electrons in Atoms

Electrons in Atoms. Bohr’s Model. Electrons move like planets around the sun. In circular orbits at different levels. Amounts of energy separate one level from another. The Bohr Model of the Atom. Electrons of hydrogen circle the nucleus in orbits

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Electrons in Atoms

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  1. Electrons in Atoms

  2. Bohr’s Model • Electrons move like planets around the sun. • In circular orbits at different levels. • Amounts of energy separate one level from another.

  3. The Bohr Model of the Atom • Electrons of hydrogen circle the nucleus in orbits 1. orbits have a fixed amount of energy in the ground state 2. orbits are a fixed distance from the nucleus 3.orbits furthest from the nucleus have the greatest energy

  4. 4. Electrons in the ground state can absorb quanta of energy – become excited- and move to a higher orbit 5. Electrons emit quanta of energy when they return to the ground state 6. Model applies only to hydrogen atoms

  5. Niels Bohr (1885 – 1962) Bohr Model of the Atom

  6. Bohr’s Model Nucleus Electron Orbit Energy Levels

  7. Bohr’s Model } • Further away from the nucleus means more energy. • There is no “in between” energy • Energy Levels Fifth Fourth Third Increasing energy Second First Nucleus

  8. Bohr • Make a model of Bohr’s Hydrogen. Bohr was only correct about Hydrogen. • Draw a nucleus • Then draw the electron.

  9. Changing the energy • Let’s look at a hydrogen atom

  10. Changing the energy • Heat or electricity or light can move the electron up energy levels

  11. Changing the energy • As the electron falls back to ground state it gives the energy back as light

  12. Changing the energy • May fall down in steps • Each with a different energy

  13. II.Heisenberg Uncertainty Principle • It is impossible to know exactly the position and velocity of a particle at the same time. • The better we know one, the less we know the other. • The act of measuring changes the properties. • Look at the fan

  14. Covalent clip

  15. I.The Covalent Bond A. Why do atoms form bonds? 1. To get 8 valence shell electrons (noble gas configuration) 2. more stable configuration - less potential energy B. Definition of Covalent Bond 1. bond resulting from sharing electrons 2. share electrons by overlapping of orbitals

  16. I.The Covalent Bond A. Why do atoms form bonds? 1. To get 8 valence shell electrons (noble gas configuration) 2. more stable configuration - less potential energy B. Definition of Covalent Bond 1. bond resulting from sharing electrons 2. share electrons by overlapping of orbitals

  17. Covalent Bonds – Sharing of Electrons

  18. The Lewis dot structure for Oxygen O Oxygen is in group VIA so it has 6 valence electrons

  19. The Lewis dot structure for Chlorine Cl chlorine is in group VIIA so it has 7 valence electrons

  20. The Lewis dot structure for calcium Ca calcium is in group IIA so it has 2 valence electrons

  21. Ca + Cl Cl Ca( Cl )2 Making calcium chloride

  22. H H H Lewis dot structure of a compound NH3 N

  23. Lewis dot structure of a compound NH3 • How many valence electrons does N have? N is in group VA so it has 5 valence electrons 2) How many valence electrons does H have? H is in group IA so each H has one valence electron 3) How many valence electrons does Neon have.

  24. H O Water - H2O Each hydrogen has 1 valence electron Each hydrogen wants 1 more The oxygen has 6 valence electrons The oxygen wants 2 more They share to make each other happy

  25. O Water • Put the pieces together • The first hydrogen is happy • The oxygen still wants one more H

  26. O Water • The second hydrogen attaches • Every atom has full energy levels H H

  27. Lewis structure • 1. PH3 • 2. H2S • 3. HCl • 4. CCl4 • 5. SiH4

  28. Lesson 3Lewis structure • Use molecular model kit to build • 1. PH3 2. H2S • 3. HCl 4. CCl4 • 5. SiH4 6. CH4 • 7. ClF3 8. PCl5 • 9. SO2 10. N2O5

  29. ClF3 • PCl5 • SO2 • N2O5

  30. Isomers- Build the molecule On the right using springs for double bonds.

  31. 3. diatomic molecules (contain two atoms) a. periodic table (1,1-7--->group 17) elements that form diatomic molecules H2 N2 O2 F2 Cl2 Br2 b. compounds can also be diatomic HCl CO NO HF HI HBr

  32. C. Examples and Diagrams H2 F2 HF Make a drawingD. What is a molecule? 1. two or more atoms bonded covalently 2. examples- Make a drawing (usually two or more nonmetals) H2O NH3 CH4 N2O5 HCl C6H12O6

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