nanoHUB-U Fundamentals of AFM L1.3: Tip-Surface Interactions (Non-Contact) - Physical Models
nanoHUB-U Fundamentals of AFM L2.3: Tip-Surface Interactions (Contact) - Dejaugin Approximation
nanoHUB-U Fundamentals of AFM L1.4: Tip-Surface Interactions (Non-Contact) - Ion-Dipoles
nanoHUB-U Fundamentals of AFM L1.1: Tip-Surface Interactions (Non-Contact) - IntraMolecular
nanoHUB-U Fundamentals of AFM L1.6: Tip-Surface Interactions (Non-Contact) - Dispersion Force
nanoHUB-U Fundamentals of AFM L1.2: Tip-Surface Interactions (Non-Contact) - Electric Dipoles
nanoHUB-U Fundamentals of AFM L1.5: Tip-Surface Interactions (Non-Contact) - Keesom Force
nanoHUB-U Fundamentals of AFM L1.3: Point Mass Model - Frequency Response
nanoHUB-U Fundamentals of AFM L2.2: Tip-Surface Interactions (Contact) - Surface Energies
nanoHUB-U Fundamentals of AFM L2.1: Tip-Surface Interactions (Contact) - Hamaker
nanoHUB-U Fundamentals of AFM L2.4: Tip-Surface Interactions (Contact) - Elasticity of Materials
nanoHUB-U Fundamentals of AFM L3.1: AFM-The Instrument - The Water Meniscus
nanoHUB-U Fundamentals of AFM L3.1: Dynamic AFM using VEDA - Approach Curves I
nanoHUB-U Fundamentals of AFM L1.6: Point Mass Model - Interacting with the Surface
nanoHUB-U Fundamentals of AFM L2.6: Tip-Surface Interactions (Contact) - Hertz, JKR, DMT
nanoHUB-U Fundamentals of AFM L3.3: AFM-The Instrument - AFM Components
nanoHUB-U Fundamentals of AFM L4.3: Force Spectroscopy - Jump to Contact
nanoHUB-U Fundamentals of AFM L4.3: Reconstructing Surface Forces - Experimental Details
nanoHUB-U Fundamentals of AFM L2.5: Tip-Surface Interactions (Contact) - Contact Mechanics
nanoHUB-U Fundamentals of AFM L4.1: Reconstructing Surface Forces - Frequency Shift and PE