nanoHUB-U: Fundamentals of Atomic Force Microscopy, Part 2: Dynamic AFM Methods

nanoHUB-U: Fundamentals of Atomic Force Microscopy, Part 2: Dynamic AFM Methods

Offering: 01a Section: Self Paced

Video
  • Lecture 1.4: Point Mass Oscillator: Calibrating Effective Properties 1. Lecture 1.4: Point Mass Oscill… 0
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  • From the last lecture 2. From the last lecture 22.466666666666665
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  • How to determine effective quantities? 3. How to determine effective qua… 148.13333333333333
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  • What is k? 4. What is k? 264.9
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  • Static kc is different from k 5. Static kc is different from k 376.23333333333335
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  • Why do we need to know kc, k, etc.? 6. Why do we need to know kc, k, … 558.4
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  • Geometric methods 7. Geometric methods 601.7
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  • Thermal methods 8. Thermal methods 673.56666666666672
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  • How to measure <q(t)2> ? 9. How to measure ? 883.66666666666663
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  • How to measure <q(t)2> ? 10. How to measure ? 988.4666666666667
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  • How to measure <q(t)2> ? 11. How to measure ? 1067.5333333333333
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  • Thermal methods 12. Thermal methods 1157.3
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L1.4: Point Mass Model - Calibrating Effective Properties

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