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Transcript
Chapter 5 – Models of the Atom • Do Now – Current Events and Chemistry • Objective – Chap 4 Review 5.1 Models of the Atom • Homework – Pg. 132 # 1-6 Supersonic Man How does this relate to anything we have talked about already this year? Write you idea in your notes Tevatron CERN Super Collider Review Questions – Pg 125 # 1-9 Review Questions – Pg 125 # 1-9 1. C 2. A 3. B 4. B 5. 9 6. E 7. False, True 8. True, False 9. True, True – Correct explanation Review what we know Democritus Dalton Thompson Rutherford The Bohr Model Carbon Magnesium Silicon Fluorine Do Now –Draw Bohr Models of K, O, and Ar Any old work to turn in? Objective – 5.1 and 5.2 The Quantum Mechanical Model Homework – Pg 136 # 10-13 The Electron Cloud Model Where is the propeller? The Quantum Mechanical Model • The Quantum Mechanical Model determines the allowed energies an electron can have and how likely it is to find the electron in various locations around the nucleus. Atomic Orbitals • Atomic Orbitals are thought of a regions of space around a nucleus where a given electron is likely (90%) to be. • Do Now – Check neighbor’s homework and give an effort grade of √-, √, √+ • Objective – Electron Configuration in Atoms • HW - Pg 136 # 10-13 Pg 132 # 1-6 1. It couldn’t explain why metals give of characteristic colors when heated or explain the chemical properties of elements. 2. An electron is found only in a specific path or orbital around the nucleus 3. It determines allowed energies and where it is likely to be located. 4. The have different shapes. 5. By gaining or losing a quantum of energy. 6. In an atom, electrons have certain fixed energy levels. To move to a different level requires the emission or absorption of an exact amount of energy or quantum. The energy of the electron is said to be quantized. • • • • • • • • • • • • • • • • • • • • • • Calculations Average Mass Total Mass (g) / Number in Sample = Average Mass (g) A-Regular 15.10 g / 17 = .8882g B-Peanut =2.6078g C-Pretzel =2.4417g Total =1.7861g Relative Abundance Number in Sample / Total Number of Particles = Relative Abundance A-Regular 17 / 38 =0.4474 B-Peanut = 0.2368 C-Pretzel = 0.3158 Total = 1.0 Percent Abundance Relative Abundance x 100 = Percent Abundance A-Regular 0.4474 x 100 = 44.737 % B-Peanut =23.68 % C-Pretzel = 31.58 % Total = 100 % Review of 5.1 Principal Energy Levels Number of Sublevels Orbitals 1 1 1 s (1 orbital) 2 2 2 s (1 orbital), 2 p (3 orbitals) 3 3 3 s (1 orbital,) 3 p (3 orbitals), 3 d (5 orbitals) 4 4 4 s (1 orbital,) 4 p (3 orbitals), 4 d (5 orbitals), 4 f (7 orbitals) Chlorine has 17 electrons 1s2 2s2 2p63s23p5 Electron Configuration • How atoms are arranged to get the most stable atom possible. Three Rules 1. Aufau Principle 2. Pauli Exclusion Principle 3. Hund’s Rule Aufbau Principle Electrons will occupy the orbitals of the lower energy levels first. Pauli Exclusion Principle An orbital may describe 2 electrons, in other words, orbitals can hold 2 electrons If two electrons occupy the same orbital they must have opposite spins ↑↓ Hund’s Rule Electrons will occupy orbitals of the same energy level in such a way that make the spin direction as large as possible. In other words, every orbital at the same energy level gets one electron before any get a second Exceptions to the Configuration Rules What do you think would happen if an atom were to differ from the configuration rules? There are small differences between the 3d and 4s energy levels and even smaller differences between the 5f and 6d levels Friday, October 8th • Do Now – Review Homework Worksheet Get out your copy of the periodic table • Obj – Physics and the Quantum Mechanical Model • HW – Pg. 146 # 16 – 19 Lab Handout Part 1 Zinc 1s22s22p63s23p64s23d10 Magnesium 1s22s22p63s2 3p3 There are 3 electrons in the p sublevel of the 3rd energy level. • Neon 8A – Nobel Gas 2nd period • Argon 8A – Nobel Gas 3rd period • Vandium 5B – 4th period Do Now – Get out the pre lab you wrote Objective – 5.3 Physics and the Quantum Mechanical Model HW – Pg. 146 # 16-20 Light Amplitude Wavelength (λ) Frequency (v) Hertz (Hz) C=λv The speed of light is the product of the wavelength and the frequency. Light is electromagnetic radiation Atomic Spectra • When atoms absorb energy, the electrons move to a higher energy level. These electrons lose energy by emitting light when they return to a lower energy level. The frequencies emitted are unique for different elements and combinations of elements The light emitted by an electron moving from a higher energy level to a lower (not always ground) has a frequency directly proportional to the energy change of the electron. Spectrum Atomic Spectrum Quantum Mechanics Heisenberg Uncertainty Principle It is impossible to know exactly both the velocity and position of a particle (electron) at the same time. Flame Test Lab • Do Now – Pre-labs out with pen/pencil and calculator. All bags away and table clear. • Obj – Flame Test Lab • HW – Pg. 153 # 1-18 Calculations ∆E = h c λ (note that this is in m and not nm) Calculations ∆E = h c λ (note that this is in m and not nm) You need to convert from nm to m. Calcium was orange with frequency of 600nm 600 nm · 1 m = 1 x 109 nm can you do this ? Understand Scientific Notation 600 x 1/ 1 x 109 Means move decimal 9 places to the right. Think about how little of a meter you will have if you only have 600 nm. 000000000000600.0000000 move 9 places .000000600 m or 6.0 x 10-7 Understand Scientific Notation How to Use Your Calculator 600 x 1/ 1 x 109 Means move decimal 9 places to the right. Think about how little of a meter you will have if you only have 600 nm. 600 x 1/ 1 x 109 600 1 1 2nd EE 9 0r 000000000000600.0000000 move 9 places .000000600 m or 6.0 x 10-7 600 1 = 6 E -7 10 or 6.0x 10-7 ˄ 9