ch8 | 嘉藥影音網-學習館

索引

00:00 1.
Principles of Chemistry: A Molecular Approach
05:43 2.
The Beginnings of Quantum Mechanics (1 of 2)
06:18 3.
The Beginnings of Quantum Mechanics (2 of 2)
06:29 4.
The Behavior of the Very Small
06:41 5.
A Theory That Explains Electron Behavior
08:28 6.
The Nature of Light: Its Wave Nature
09:54 7.
Electromagnetic Radiation
11:59 8.
Speed of Energy Transmission
12:05 9.
Characterizing Waves (1 of 2)
12:56 10.
Wave Characteristics
13:35 11.
Characterizing Waves (2 of 2)
14:50 12.
The Relationship Between Wavelength and Frequency
18:32 13.
Amplitude and Wavelength
19:17 14.
Color
20:03 15.
Conceptual Connection 8.1 (1 of 2)
20:06 16.
Conceptual Connection 8.1 (2 of 2)
20:08 17.
The Electromagnetic Spectrum
20:18 18.
Electromagnetic Spectrum
30:47 19.
Continuous Spectrum
30:47 20.
Thermal Imaging Using Infrared Light
30:48 21.
Continuous Spectrum
30:50 22.
Thermal Imaging Using Infrared Light
31:25 23.
Conceptual Connection 8.2 (1 of 2)
31:33 24.
Conceptual Connection 8.2 (2 of 2)
31:34 25.
Using High-Energy Radiation to Kill Cancer Cells
33:08 26.
Interference (1 of 2)
33:50 27.
Interference (2 of 2)
34:12 28.
Diffraction (1 of 2)
34:52 29.
Diffraction (2 of 2)
35:58 30.
Two-Slit Interference
37:13 31.
The Photoelectric Effect (1 of 2)
37:13 32.
The Photoelectric Effect (2 of 2)
37:14 33.
The Photoelectric Effect (1 of 2)
37:17 34.
Two-Slit Interference
37:20 35.
The Photoelectric Effect (1 of 2)
39:17 36.
The Photoelectric Effect (2 of 2)
42:33 37.
The Photoelectric Effect: The Problem
43:46 38.
Einstein’s Explanation
46:30 39.
Ejected Electrons
48:14 40.
Conceptual Connection 8.3 (1 of 2)
48:16 41.
Conceptual Connection 8.3 (2 of 2)
49:33 42.
Atomic Spectroscopy and the Bohr Model
50:19 43.
Exciting Gas Atoms to Emit Light
52:39 44.
Emission Spectra
54:46 45.
Examples of Emission Spectra
55:25 46.
Identifying Elements with Flame Tests
56:19 47.
Rydberg’s Spectrum Analysis
56:35 48.
The Bohr Model of the Atom
56:38 49.
Bohr’s Model (1 of 2)
56:38 50.
The Bohr Model of the Atom
56:39 51.
Rydberg’s Spectrum Analysis
56:40 52.
The Bohr Model of the Atom
56:45 53.
Bohr’s Model (1 of 2)
57:31 54.
Bohr’s Model (2 of 2)
57:33 55.
Bohr Model of Hydrogen Atoms
58:28 56.
Wave Behavior of Electrons
58:42 57.
Electron Diffraction (1 of 2)
58:54 58.
Electron Diffraction (2 of 2)
58:58 59.
Electron Diffraction (1 of 2)
59:06 60.
Electron Diffraction (2 of 2)
59:07 61.
Conceptual Connection 8.4 (1 of 2)
59:10 62.
Electron Diffraction (2 of 2)
59:11 63.
Electron Diffraction (1 of 2)
59:11 64.
Wave Behavior of Electrons
59:12 65.
Bohr Model of Hydrogen Atoms
1:01:06 66.
Wave Behavior of Electrons
1:01:07 67.
Electron Diffraction (1 of 2)
1:01:08 68.
Electron Diffraction (2 of 2)
1:01:10 69.
Conceptual Connection 8.4 (1 of 2)
1:01:11 70.
Conceptual Connection 8.4 (2 of 2)
1:01:18 71.
Complementary Properties
1:01:21 72.
Uncertainty Principle
1:02:29 73.
Uncertainty Principle Demonstration
1:02:33 74.
Conceptual Connection 8.5 (1 of 2)
1:02:36 75.
Conceptual Connection 8.5 (2 of 2)
1:02:37 76.
Determinacy versus Indeterminacy
1:02:42 77.
Trajectory versus Probability
1:02:49 78.
Determinacy versus Indeterminacy
1:02:50 79.
Conceptual Connection 8.5 (2 of 2)
1:02:50 80.
Conceptual Connection 8.5 (1 of 2)
1:02:50 81.
Uncertainty Principle Demonstration
1:02:51 82.
Uncertainty Principle
1:02:51 83.
Complementary Properties
1:02:52 84.
Conceptual Connection 8.4 (2 of 2)
1:02:52 85.
Conceptual Connection 8.4 (1 of 2)
1:02:53 86.
Electron Diffraction (2 of 2)
1:02:54 87.
Electron Diffraction (1 of 2)
1:02:54 88.
Wave Behavior of Electrons
1:02:55 89.
Bohr Model of Hydrogen Atoms
1:02:56 90.
Bohr’s Model (2 of 2)
1:02:56 91.
Bohr’s Model (1 of 2)
1:02:57 92.
The Bohr Model of the Atom
1:02:58 93.
Rydberg’s Spectrum Analysis
1:05:35 94.
The Bohr Model of the Atom
1:05:35 95.
Rydberg’s Spectrum Analysis
1:05:36 96.
The Bohr Model of the Atom
1:05:36 97.
Bohr’s Model (1 of 2)
1:05:50 98.
Bohr’s Model (2 of 2)
1:05:51 99.
Bohr Model of Hydrogen Atoms
1:05:56 100.
Wave Behavior of Electrons
1:05:58 101.
Electron Diffraction (1 of 2)
1:05:59 102.
Electron Diffraction (2 of 2)
1:06:00 103.
Conceptual Connection 8.4 (1 of 2)
1:06:01 104.
Electron Diffraction (2 of 2)
1:07:11 105.
Conceptual Connection 8.4 (1 of 2)
1:07:12 106.
Conceptual Connection 8.4 (2 of 2)
1:07:13 107.
Complementary Properties
1:07:14 108.
Uncertainty Principle
1:07:31 109.
Uncertainty Principle Demonstration
1:07:33 110.
Conceptual Connection 8.5 (1 of 2)
1:07:33 111.
Conceptual Connection 8.5 (2 of 2)
1:07:34 112.
Determinacy versus Indeterminacy
1:07:43 113.
Trajectory versus Probability
1:08:16 114.
Electron Energy
1:08:36 115.
Schrödinger’s Equation
1:09:16 116.
Solutions to the Wave Function, Ψ
1:19:44 117.
Principal Quantum Number, n
1:22:05 118.
Principal Energy Levels in Hydrogen
1:22:06 119.
Angular Momentum Quantum Number, l (1 of 2)
1:22:06 120.
Principal Energy Levels in Hydrogen
1:22:21 121.
Principal Quantum Number, n
1:22:25 122.
Principal Energy Levels in Hydrogen
1:23:14 123.
Angular Momentum Quantum Number, l (1 of 2)
1:25:09 124.
Angular Momentum Quantum Number, l (2 of 2)
1:25:22 125.
Conceptual Connection 8.6 (1 of 2)
1:27:47 126.
Conceptual Connection 8.6 (2 of 2)
1:27:48 127.
Magnetic Quantum Number, ml
1:29:11 128.
Conceptual Connection 8.7 (1 of 2)
1:29:13 129.
Conceptual Connection 8.7 (2 of 2)
1:29:14 130.
Spin Quantum Number, ms
1:30:43 131.
Describing an Orbital
1:31:32 132.
Energy Levels and Sublevels
1:33:00 133.
Summarizing Energy Levels and Sublevels
1:33:04 134.
Atomic Spectroscopy Explained
1:33:09 135.
Electron Transitions
1:33:09 136.
Quantum Leaps
1:35:09 137.
Predicting the Spectrum of Hydrogen
1:35:13 138.
Energy Transitions in Hydrogen
1:35:20 139.
Conceptual Connection 8.8 (1 of 2)
1:35:20 140.
Energy Transitions in Hydrogen
1:35:34 141.
Conceptual Connection 8.8 (1 of 2)
1:35:39 142.
Conceptual Connection 8.8 (2 of 2)
1:35:39 143.
Hydrogen Energy Transitions and Radiation
1:36:46 144.
Probability Density for s Orbitals (l = 0)
1:37:25 145.
l = 0, the s Orbital
1:37:33 146.
Radial Distribution Function
1:37:53 147.
Probability Densities and Radial Distributions for 2s and 3s Orbitals
1:37:57 148.
Probability and Radial Distribution Functions
1:37:59 149.
l = 1, p Orbitals
1:38:05 150.
p Orbitals (l = 1)
1:38:53 151.
l = 2, d Orbitals
1:38:56 152.
d Orbitals (l = 2)
1:39:56 153.
l = 3, f Orbitals
1:39:57 154.
f Orbitals (l = 3)
1:40:00 155.
The Phase of an Orbital
1:40:02 156.
f Orbitals (l = 3)
1:40:03 157.
l = 3, f Orbitals
1:40:03 158.
d Orbitals (l = 2)
1:40:04 159.
l = 2, d Orbitals
1:40:05 160.
p Orbitals (l = 1)
1:40:16 161.
l = 2, d Orbitals
1:40:17 162.
d Orbitals (l = 2)
1:40:18 163.
l = 3, f Orbitals
1:40:18 164.
f Orbitals (l = 3)
1:40:19 165.
The Phase of an Orbital
1:40:20 166.
Phases
1:40:36 167.
Why Are Atoms Spherical?
1:40:38 168.
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講者：Tro

日期：2022-10-25

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00:00 1.
Principles of Chemistry: A Molecular Approach
05:43 2.
The Beginnings of Quantum Mechanics (1 of 2)
06:18 3.
The Beginnings of Quantum Mechanics (2 of 2)
06:29 4.
The Behavior of the Very Small
06:41 5.
A Theory That Explains Electron Behavior
08:28 6.
The Nature of Light: Its Wave Nature
09:54 7.
Electromagnetic Radiation
11:59 8.
Speed of Energy Transmission
12:05 9.
Characterizing Waves (1 of 2)
12:56 10.
Wave Characteristics
13:35 11.
Characterizing Waves (2 of 2)
14:50 12.
The Relationship Between Wavelength and Frequency
18:32 13.
Amplitude and Wavelength
19:17 14.
Color
20:03 15.
Conceptual Connection 8.1 (1 of 2)
20:06 16.
Conceptual Connection 8.1 (2 of 2)
20:08 17.
The Electromagnetic Spectrum
20:18 18.
Electromagnetic Spectrum
30:47 19.
Continuous Spectrum
30:47 20.
Thermal Imaging Using Infrared Light
30:48 21.
Continuous Spectrum
30:50 22.
Thermal Imaging Using Infrared Light
31:25 23.
Conceptual Connection 8.2 (1 of 2)
31:33 24.
Conceptual Connection 8.2 (2 of 2)
31:34 25.
Using High-Energy Radiation to Kill Cancer Cells
33:08 26.
Interference (1 of 2)
33:50 27.
Interference (2 of 2)
34:12 28.
Diffraction (1 of 2)
34:52 29.
Diffraction (2 of 2)
35:58 30.
Two-Slit Interference
37:13 31.
The Photoelectric Effect (1 of 2)
37:13 32.
The Photoelectric Effect (2 of 2)
37:14 33.
The Photoelectric Effect (1 of 2)
37:17 34.
Two-Slit Interference
37:20 35.
The Photoelectric Effect (1 of 2)
39:17 36.
The Photoelectric Effect (2 of 2)
42:33 37.
The Photoelectric Effect: The Problem
43:46 38.
Einstein’s Explanation
46:30 39.
Ejected Electrons
48:14 40.
Conceptual Connection 8.3 (1 of 2)
48:16 41.
Conceptual Connection 8.3 (2 of 2)
49:33 42.
Atomic Spectroscopy and the Bohr Model
50:19 43.
Exciting Gas Atoms to Emit Light
52:39 44.
Emission Spectra
54:46 45.
Examples of Emission Spectra
55:25 46.
Identifying Elements with Flame Tests
56:19 47.
Rydberg’s Spectrum Analysis
56:35 48.
The Bohr Model of the Atom
56:38 49.
Bohr’s Model (1 of 2)
56:38 50.
The Bohr Model of the Atom
56:39 51.
Rydberg’s Spectrum Analysis
56:40 52.
The Bohr Model of the Atom
56:45 53.
Bohr’s Model (1 of 2)
57:31 54.
Bohr’s Model (2 of 2)
57:33 55.
Bohr Model of Hydrogen Atoms
58:28 56.
Wave Behavior of Electrons
58:42 57.
Electron Diffraction (1 of 2)
58:54 58.
Electron Diffraction (2 of 2)
58:58 59.
Electron Diffraction (1 of 2)
59:06 60.
Electron Diffraction (2 of 2)
59:07 61.
Conceptual Connection 8.4 (1 of 2)
59:10 62.
Electron Diffraction (2 of 2)
59:11 63.
Electron Diffraction (1 of 2)
59:11 64.
Wave Behavior of Electrons
59:12 65.
Bohr Model of Hydrogen Atoms
1:01:06 66.
Wave Behavior of Electrons
1:01:07 67.
Electron Diffraction (1 of 2)
1:01:08 68.
Electron Diffraction (2 of 2)
1:01:10 69.
Conceptual Connection 8.4 (1 of 2)
1:01:11 70.
Conceptual Connection 8.4 (2 of 2)
1:01:18 71.
Complementary Properties
1:01:21 72.
Uncertainty Principle
1:02:29 73.
Uncertainty Principle Demonstration
1:02:33 74.
Conceptual Connection 8.5 (1 of 2)
1:02:36 75.
Conceptual Connection 8.5 (2 of 2)
1:02:37 76.
Determinacy versus Indeterminacy
1:02:42 77.
Trajectory versus Probability
1:02:49 78.
Determinacy versus Indeterminacy
1:02:50 79.
Conceptual Connection 8.5 (2 of 2)
1:02:50 80.
Conceptual Connection 8.5 (1 of 2)
1:02:50 81.
Uncertainty Principle Demonstration
1:02:51 82.
Uncertainty Principle
1:02:51 83.
Complementary Properties
1:02:52 84.
Conceptual Connection 8.4 (2 of 2)
1:02:52 85.
Conceptual Connection 8.4 (1 of 2)
1:02:53 86.
Electron Diffraction (2 of 2)
1:02:54 87.
Electron Diffraction (1 of 2)
1:02:54 88.
Wave Behavior of Electrons
1:02:55 89.
Bohr Model of Hydrogen Atoms
1:02:56 90.
Bohr’s Model (2 of 2)
1:02:56 91.
Bohr’s Model (1 of 2)
1:02:57 92.
The Bohr Model of the Atom
1:02:58 93.
Rydberg’s Spectrum Analysis
1:05:35 94.
The Bohr Model of the Atom
1:05:35 95.
Rydberg’s Spectrum Analysis
1:05:36 96.
The Bohr Model of the Atom
1:05:36 97.
Bohr’s Model (1 of 2)
1:05:50 98.
Bohr’s Model (2 of 2)
1:05:51 99.
Bohr Model of Hydrogen Atoms
1:05:56 100.
Wave Behavior of Electrons
1:05:58 101.
Electron Diffraction (1 of 2)
1:05:59 102.
Electron Diffraction (2 of 2)
1:06:00 103.
Conceptual Connection 8.4 (1 of 2)
1:06:01 104.
Electron Diffraction (2 of 2)
1:07:11 105.
Conceptual Connection 8.4 (1 of 2)
1:07:12 106.
Conceptual Connection 8.4 (2 of 2)
1:07:13 107.
Complementary Properties
1:07:14 108.
Uncertainty Principle
1:07:31 109.
Uncertainty Principle Demonstration
1:07:33 110.
Conceptual Connection 8.5 (1 of 2)
1:07:33 111.
Conceptual Connection 8.5 (2 of 2)
1:07:34 112.
Determinacy versus Indeterminacy
1:07:43 113.
Trajectory versus Probability
1:08:16 114.
Electron Energy
1:08:36 115.
Schrödinger’s Equation
1:09:16 116.
Solutions to the Wave Function, Ψ
1:19:44 117.
Principal Quantum Number, n
1:22:05 118.
Principal Energy Levels in Hydrogen
1:22:06 119.
Angular Momentum Quantum Number, l (1 of 2)
1:22:06 120.
Principal Energy Levels in Hydrogen
1:22:21 121.
Principal Quantum Number, n
1:22:25 122.
Principal Energy Levels in Hydrogen
1:23:14 123.
Angular Momentum Quantum Number, l (1 of 2)
1:25:09 124.
Angular Momentum Quantum Number, l (2 of 2)
1:25:22 125.
Conceptual Connection 8.6 (1 of 2)
1:27:47 126.
Conceptual Connection 8.6 (2 of 2)
1:27:48 127.
Magnetic Quantum Number, ml
1:29:11 128.
Conceptual Connection 8.7 (1 of 2)
1:29:13 129.
Conceptual Connection 8.7 (2 of 2)
1:29:14 130.
Spin Quantum Number, ms
1:30:43 131.
Describing an Orbital
1:31:32 132.
Energy Levels and Sublevels
1:33:00 133.
Summarizing Energy Levels and Sublevels
1:33:04 134.
Atomic Spectroscopy Explained
1:33:09 135.
Electron Transitions
1:33:09 136.
Quantum Leaps
1:35:09 137.
Predicting the Spectrum of Hydrogen
1:35:13 138.
Energy Transitions in Hydrogen
1:35:20 139.
Conceptual Connection 8.8 (1 of 2)
1:35:20 140.
Energy Transitions in Hydrogen
1:35:34 141.
Conceptual Connection 8.8 (1 of 2)
1:35:39 142.
Conceptual Connection 8.8 (2 of 2)
1:35:39 143.
Hydrogen Energy Transitions and Radiation
1:36:46 144.
Probability Density for s Orbitals (l = 0)
1:37:25 145.
l = 0, the s Orbital
1:37:33 146.
Radial Distribution Function
1:37:53 147.
Probability Densities and Radial Distributions for 2s and 3s Orbitals
1:37:57 148.
Probability and Radial Distribution Functions
1:37:59 149.
l = 1, p Orbitals
1:38:05 150.
p Orbitals (l = 1)
1:38:53 151.
l = 2, d Orbitals
1:38:56 152.
d Orbitals (l = 2)
1:39:56 153.
l = 3, f Orbitals
1:39:57 154.
f Orbitals (l = 3)
1:40:00 155.
The Phase of an Orbital
1:40:02 156.
f Orbitals (l = 3)
1:40:03 157.
l = 3, f Orbitals
1:40:03 158.
d Orbitals (l = 2)
1:40:04 159.
l = 2, d Orbitals
1:40:05 160.
p Orbitals (l = 1)
1:40:16 161.
l = 2, d Orbitals
1:40:17 162.
d Orbitals (l = 2)
1:40:18 163.
l = 3, f Orbitals
1:40:18 164.
f Orbitals (l = 3)
1:40:19 165.
The Phase of an Orbital
1:40:20 166.
Phases
1:40:36 167.
Why Are Atoms Spherical?
1:40:38 168.
Copyright

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ch8

長度: 1:41:02, 瀏覽: 1488, 最近修訂: 2022-10-25

00:00 1.
Principles of Chemistry: A Molecular Approach
05:43 2.
The Beginnings of Quantum Mechanics (1 of 2)
06:18 3.
The Beginnings of Quantum Mechanics (2 of 2)
06:29 4.
The Behavior of the Very Small
06:41 5.
A Theory That Explains Electron Behavior
08:28 6.
The Nature of Light: Its Wave Nature
09:54 7.
Electromagnetic Radiation
11:59 8.
Speed of Energy Transmission
12:05 9.
Characterizing Waves (1 of 2)
12:56 10.
Wave Characteristics
13:35 11.
Characterizing Waves (2 of 2)
14:50 12.
The Relationship Between Wavelength and Frequency
18:32 13.
Amplitude and Wavelength
19:17 14.
Color
20:03 15.
Conceptual Connection 8.1 (1 of 2)
20:06 16.
Conceptual Connection 8.1 (2 of 2)
20:08 17.
The Electromagnetic Spectrum
20:18 18.
Electromagnetic Spectrum
30:47 19.
Continuous Spectrum
30:47 20.
Thermal Imaging Using Infrared Light
30:48 21.
Continuous Spectrum
30:50 22.
Thermal Imaging Using Infrared Light
31:25 23.
Conceptual Connection 8.2 (1 of 2)
31:33 24.
Conceptual Connection 8.2 (2 of 2)
31:34 25.
Using High-Energy Radiation to Kill Cancer Cells
33:08 26.
Interference (1 of 2)
33:50 27.
Interference (2 of 2)
34:12 28.
Diffraction (1 of 2)
34:52 29.
Diffraction (2 of 2)
35:58 30.
Two-Slit Interference
37:13 31.
The Photoelectric Effect (1 of 2)
37:13 32.
The Photoelectric Effect (2 of 2)
37:14 33.
The Photoelectric Effect (1 of 2)
37:17 34.
Two-Slit Interference
37:20 35.
The Photoelectric Effect (1 of 2)
39:17 36.
The Photoelectric Effect (2 of 2)
42:33 37.
The Photoelectric Effect: The Problem
43:46 38.
Einstein’s Explanation
46:30 39.
Ejected Electrons
48:14 40.
Conceptual Connection 8.3 (1 of 2)
48:16 41.
Conceptual Connection 8.3 (2 of 2)
49:33 42.
Atomic Spectroscopy and the Bohr Model
50:19 43.
Exciting Gas Atoms to Emit Light
52:39 44.
Emission Spectra
54:46 45.
Examples of Emission Spectra
55:25 46.
Identifying Elements with Flame Tests
56:19 47.
Rydberg’s Spectrum Analysis
56:35 48.
The Bohr Model of the Atom
56:38 49.
Bohr’s Model (1 of 2)
56:38 50.
The Bohr Model of the Atom
56:39 51.
Rydberg’s Spectrum Analysis
56:40 52.
The Bohr Model of the Atom
56:45 53.
Bohr’s Model (1 of 2)
57:31 54.
Bohr’s Model (2 of 2)
57:33 55.
Bohr Model of Hydrogen Atoms
58:28 56.
Wave Behavior of Electrons
58:42 57.
Electron Diffraction (1 of 2)
58:54 58.
Electron Diffraction (2 of 2)
58:58 59.
Electron Diffraction (1 of 2)
59:06 60.
Electron Diffraction (2 of 2)
59:07 61.
Conceptual Connection 8.4 (1 of 2)
59:10 62.
Electron Diffraction (2 of 2)
59:11 63.
Electron Diffraction (1 of 2)
59:11 64.
Wave Behavior of Electrons
59:12 65.
Bohr Model of Hydrogen Atoms
1:01:06 66.
Wave Behavior of Electrons
1:01:07 67.
Electron Diffraction (1 of 2)
1:01:08 68.
Electron Diffraction (2 of 2)
1:01:10 69.
Conceptual Connection 8.4 (1 of 2)
1:01:11 70.
Conceptual Connection 8.4 (2 of 2)
1:01:18 71.
Complementary Properties
1:01:21 72.
Uncertainty Principle
1:02:29 73.
Uncertainty Principle Demonstration
1:02:33 74.
Conceptual Connection 8.5 (1 of 2)
1:02:36 75.
Conceptual Connection 8.5 (2 of 2)
1:02:37 76.
Determinacy versus Indeterminacy
1:02:42 77.
Trajectory versus Probability
1:02:49 78.
Determinacy versus Indeterminacy
1:02:50 79.
Conceptual Connection 8.5 (2 of 2)
1:02:50 80.
Conceptual Connection 8.5 (1 of 2)
1:02:50 81.
Uncertainty Principle Demonstration
1:02:51 82.
Uncertainty Principle
1:02:51 83.
Complementary Properties
1:02:52 84.
Conceptual Connection 8.4 (2 of 2)
1:02:52 85.
Conceptual Connection 8.4 (1 of 2)
1:02:53 86.
Electron Diffraction (2 of 2)
1:02:54 87.
Electron Diffraction (1 of 2)
1:02:54 88.
Wave Behavior of Electrons
1:02:55 89.
Bohr Model of Hydrogen Atoms
1:02:56 90.
Bohr’s Model (2 of 2)
1:02:56 91.
Bohr’s Model (1 of 2)
1:02:57 92.
The Bohr Model of the Atom
1:02:58 93.
Rydberg’s Spectrum Analysis
1:05:35 94.
The Bohr Model of the Atom
1:05:35 95.
Rydberg’s Spectrum Analysis
1:05:36 96.
The Bohr Model of the Atom
1:05:36 97.
Bohr’s Model (1 of 2)
1:05:50 98.
Bohr’s Model (2 of 2)
1:05:51 99.
Bohr Model of Hydrogen Atoms
1:05:56 100.
Wave Behavior of Electrons
1:05:58 101.
Electron Diffraction (1 of 2)
1:05:59 102.
Electron Diffraction (2 of 2)
1:06:00 103.
Conceptual Connection 8.4 (1 of 2)
1:06:01 104.
Electron Diffraction (2 of 2)
1:07:11 105.
Conceptual Connection 8.4 (1 of 2)
1:07:12 106.
Conceptual Connection 8.4 (2 of 2)
1:07:13 107.
Complementary Properties
1:07:14 108.
Uncertainty Principle
1:07:31 109.
Uncertainty Principle Demonstration
1:07:33 110.
Conceptual Connection 8.5 (1 of 2)
1:07:33 111.
Conceptual Connection 8.5 (2 of 2)
1:07:34 112.
Determinacy versus Indeterminacy
1:07:43 113.
Trajectory versus Probability
1:08:16 114.
Electron Energy
1:08:36 115.
Schrödinger’s Equation
1:09:16 116.
Solutions to the Wave Function, Ψ
1:19:44 117.
Principal Quantum Number, n
1:22:05 118.
Principal Energy Levels in Hydrogen
1:22:06 119.
Angular Momentum Quantum Number, l (1 of 2)
1:22:06 120.
Principal Energy Levels in Hydrogen
1:22:21 121.
Principal Quantum Number, n
1:22:25 122.
Principal Energy Levels in Hydrogen
1:23:14 123.
Angular Momentum Quantum Number, l (1 of 2)
1:25:09 124.
Angular Momentum Quantum Number, l (2 of 2)
1:25:22 125.
Conceptual Connection 8.6 (1 of 2)
1:27:47 126.
Conceptual Connection 8.6 (2 of 2)
1:27:48 127.
Magnetic Quantum Number, ml
1:29:11 128.
Conceptual Connection 8.7 (1 of 2)
1:29:13 129.
Conceptual Connection 8.7 (2 of 2)
1:29:14 130.
Spin Quantum Number, ms
1:30:43 131.
Describing an Orbital
1:31:32 132.
Energy Levels and Sublevels
1:33:00 133.
Summarizing Energy Levels and Sublevels
1:33:04 134.
Atomic Spectroscopy Explained
1:33:09 135.
Electron Transitions
1:33:09 136.
Quantum Leaps
1:35:09 137.
Predicting the Spectrum of Hydrogen
1:35:13 138.
Energy Transitions in Hydrogen
1:35:20 139.
Conceptual Connection 8.8 (1 of 2)
1:35:20 140.
Energy Transitions in Hydrogen
1:35:34 141.
Conceptual Connection 8.8 (1 of 2)
1:35:39 142.
Conceptual Connection 8.8 (2 of 2)
1:35:39 143.
Hydrogen Energy Transitions and Radiation
1:36:46 144.
Probability Density for s Orbitals (l = 0)
1:37:25 145.
l = 0, the s Orbital
1:37:33 146.
Radial Distribution Function
1:37:53 147.
Probability Densities and Radial Distributions for 2s and 3s Orbitals
1:37:57 148.
Probability and Radial Distribution Functions
1:37:59 149.
l = 1, p Orbitals
1:38:05 150.
p Orbitals (l = 1)
1:38:53 151.
l = 2, d Orbitals
1:38:56 152.
d Orbitals (l = 2)
1:39:56 153.
l = 3, f Orbitals
1:39:57 154.
f Orbitals (l = 3)
1:40:00 155.
The Phase of an Orbital
1:40:02 156.
f Orbitals (l = 3)
1:40:03 157.
l = 3, f Orbitals
1:40:03 158.
d Orbitals (l = 2)
1:40:04 159.
l = 2, d Orbitals
1:40:05 160.
p Orbitals (l = 1)
1:40:16 161.
l = 2, d Orbitals
1:40:17 162.
d Orbitals (l = 2)
1:40:18 163.
l = 3, f Orbitals
1:40:18 164.
f Orbitals (l = 3)
1:40:19 165.
The Phase of an Orbital
1:40:20 166.
Phases
1:40:36 167.
Why Are Atoms Spherical?
1:40:38 168.
Copyright

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資料夾名稱

普通化學

發表人

李得T

單位

藥學系

建立

2022-10-25 12:11:49

最近修訂

2022-10-25 13:16:53

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