Category Archives: LECTURE NOTES
LECTURE NOTES ON MECHANICS OF NANOMATERIALS
- Why is nano-scale special How are nano-materials different? Lecture1
- Definition of nanostructures, nanostructured materials, nanoscale precipitates Lecture2
- Synthesis Bottom UP Lecture3
- Top Down Lecture4
- Applications Micro-fluidics, fuel cells, biomedical, bio-mimicing Lecture5
- flexible electronics, solar cells, PVs Lecture6
- Characterization 1) Electron scattering overview Lecture7
- E-scattering based techniques overview: SEM (BS, SE, EBSD), EDS (FIB) Lecture8
- Characterization FIB Lecture9
- Force-based techniques: AFM, Nanoindentation, SPM Lecture10
- Properties Quantum Effect, transport, Field emission, thermal, magnetic, chemical, Optical Lecture11
- Proposal/Patent writing Lecture12
- Properties Mechanical properties 1 – Buckling, Dislocation, plasticity in nanostructures Lecture13
LECTURE NOTES ON MODELING IN BIOMECHANICS
Lecture 2 – Philosophy of Modeling
Lecture 4 – Equations of Motion I
Lecture 5 – Equations of Motion II
Lecture 6 – Modeling Muscle Properties
Lecture 8 – Static Optimization
Lecture 9 – Dynamic Optimization
Lecture 10 – Input Parameters for Models: Part I Input Parameters for Models: Part II
LECTURE NOTES ON BIOMEDICAL IMAGING
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Introduction
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X-ray Imaging
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Intensity manipulations
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Computed Tomography
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2D reconstruction from Projections
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Nuclear Imaging
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Maximum Likelihood Reconstruction
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Nuclear Magnetic Resonance
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Magnetic Resonance Imaging
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Fourrier Transform Review
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Point Spread Function, Inverse Filtering,
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Wiener Filtering, Sharpening,
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