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Download Chemistry 1A – Chapter 11 Objectives Name Hour Indiana State
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Chemistry 1A – Chapter 11 Objectives Name Hour Indiana State Standards C.2.5 Write the electron configuration of an element and relate this to its position on the periodic table. C.2.6 Use the periodic table and electron configuration to determine an element's number of valence electrons and its chemical and physical properties. Chapter 11 Objectives 11.2 Electromagnetic Radiation Do p.353 #5,6 1. Discuss the wave nature of light and other forms of electromagnetic radiation 2. Identify the different ranges of the electromagnetic spectrum 3. Discuss the relationship between wavelength, frequency and velocity of electromagnetic waves 11.3 & 11.4 Emission of Energy by Atoms & Energy Levels of Hydrogen Do p.353 #11,13,19 4. Relate the colors of emitted light to the amount of energy they carry and to the frequency and wavelength of the light waves 5. Explain how energy emitted by atoms is quantized 6. Discuss how the emission of light energy from hydrogen atoms led to the discovery of the distinct “energy levels” of electrons 11.5 & 11.6 The Bohr Model & Wave Mechanical Model of the Atom 7. Describe the modern model of the atom 11.7 & 11.8 Orbitals & The Pauli Exclusion principle 8. Define “orbital” 9. Identify the different types of orbitals and note: Do p. 353 #23,26 Do p. 354 #33,36,39,43 The type of orbitals found in each energy level The number of each type of orbital in each energy level 10. Note the opposite spin on electrons occupying the same orbital 11.9 11. 12. Electron Configurations Do p. 354, 355 #49,50 Determine the electron configuration of atoms of different elements Draw orbital diagrams to demonstrate electron configurations 11.10 Electron Configurations and the Periodic Table Do p. 355 #59,61,67 13. Relate electron configurations to positions of elements on the periodic table 11.11 Atomic Properties and the Periodic Table Do p. 355, 356 #73,75,79,81 14. Discuss periodic trends and use them to predict the relative atomic size and ionization energy for given elements
