01:15:11

BIOE 5820 Foreign Body Response

55:47

BIOE 5820 Surface Hydrophobicity, Contact Angle, and Surface Tension (Force/Length)

58:06

BIOE 5820 Math Models of Polymer Degradation: Bulk and Surface

01:06:43

BIOE 5820 Polymer Degradation: Hydrolysis vs Enzymatic and Bulk vs Surface Degradation

40:34

BIOE 5820 Natural Polypeptides (Proteins): Elastin and Collagen

37:19

BIOE 5820 Natural Polysaccharides: Hyaluronic Acid, Chondroitin Sulfate, and Heparin

41:39

BIOE 5820 Natural Polysaccharides - Alginate, Pectin, Chitin, and Chitosan

43:52

BIOE 5820 Hydrogels Intro

26:39

BIOE 5820 Covalent Crosslinking - Vulcanization of Latex and PEX

15:38

BIOE 5820 Importance of Stoichiometric Ratio for Condensation Polymers

01:12:14

BIOE 5820 Condensation Polymerization

35:41

BIOE 5820 Polymerization: Condensation, Radical, and Ring Opening; Step and Chain Growth

36:58

BIOE 5820 Composites

01:14:57

BIOE 5820 Viscoelasticity

01:22:59

BIOE 5820 Molecular Weight; Thermosets & Thermoplastics; Microstructure, Temp., and Mechanical Props

01:28:30

BIOE 5820 Polymers Intro, Effect of Chain-Chain Interactions on Material Properties

01:08:45

BIOE 5820 Microstructure of Metals and Yield Strength; Grain Size, Dislocations and Heat Treatment

01:02:08

BIOE 5820 Strain Hardening and Fatigue

31:56

BIOE 5820 Stress Concentration

37:23

BIOE 5820 Molecular Origins of Modulus of Elasticity

01:10:45

BIOE 5820 Biomaterials - Stress-Strain Curve and Material Properties

01:24:35

BIOE 5820 Biomaterials - Stress and Strain

01:31:36

BIOE 3310 Lec 27 - Final Exam Review

52:17

BIOE 3310 Lec 26 - Computing h via Nusselt number for flat plates

54:29

BIOE 3310 Lec 25 - Flow past flat plates, convection, and boundary layers

45:22

BIOE 3310 Lec 24.2 - Equations for Nusselt numbers; find your own h for pipe flow; entrance length

43:28

BIOE 3310 Lec 24.1 - Nondimensionalization, h, and the Nusselt Number

01:01:03

BIOE Lec 23 - Heat Transfer in Pipes

56:01

BIOE 3310 Lec 22 - Unsteady (time-varying) heat transfer; lumped capacitance

01:22:02

BIOE 3310 Lec 21 - Fins for faster heat transfer: temperature profile w/ convection and conduction

01:16:36

BIOE 3310 Lec 20 - Surface convection; Newton's law of cooling; thermal resistance

45:05

BIOE 3310 Lec 19.2 - Conduction and heat gen. example problem; shells and cons. of energy

56:32

BIOE 3310 Lec 19.1 - Conservation of energy for thermal systems; hot & cold mixing example problem

01:20:11

BIOE 3310 Lec 18 - Heat Transfer; Fourier's Law of Conduction; Example Problems; Thermal Resistances

01:14:11

BIOE 3310 Lec 17 - Navier Stokes Equations: Explanation of terms and example problem

25:58

BIOE 3310 Lec 16.2 - Continuity example problem: determining y vel.of an impinging jet given x vel.

45:59

BIOE 3310 Lec 16.1 - "Micro" conservation of mass, aka continuity equation

01:30:48

BIOE 3310 Lec 15 - Shells to derive parabolic velocity profile for laminar flow in a circular pipe

56:24

BIOE 3310 Lec 14 - Part 2 of deriving a velocity profile via shells - blood oxygenator example

01:08:38

BIOE 3310 Lec 13 - Deriving velocity profile for1-D flows, shells, and part of an example problem

01:10:36

BIOE 3310 Lec 12 - Fluidic (Hydraulic) Resistors

56:09

BIOE 3310 Lec 11 - Conservation of energy (aka engineering Bernoulli) example: bottle draining

01:18:52

BIOE 3310 Lec 10 - Conservation of Energy (aka Engineering Bernoulli)

44:19

BIOE 3310 Lec 9.2 - Bernoulli Equation; Example Problem of Faucet Flow

41:15

BIOE 3310 Lec 9.1 - Conservation of Momentum Example Problem: Flow through a Slit

47:19

BIOE 3310 Lec 7.2 - Conservation of Momentum Example Problem: Cat Levitation

01:14:14

BIOE 3310 Lec 8 - Conservation of Momentum Example Problem: Hydraulic Jump

44:32

BIOE 3310 Lec 7.1 - Conservation of Momentum Equation

37:41

BIOE 3310 Lec 6.2 - Conservation of Mass with Nonuniform (Variable) Velocity Profile

58:15

BIOE 3310 Lec 6.1 Conservation of Mass: Vessel with Time-Varying Density

55:56

BIOE 3310 Lec 5.2 Conservation of Mass Example Problem Filling and Emptying a Reservior

41:36

BIOE 3310 Lec 5.1 - Conservation of Mass (Equation Walkthrough)

01:18:37

BIOE 3310 Lec 4 - Pressure and Hydrostatics Loose Ends and Example Problems

57:58

BIOE 3310 Lec 3.2 - Pressure and Hydrostatics

01:00:13

BIOE 3310 Lec 3.1 - Viscometer Example Problem

01:07:50

BIOE 3310 Lecture 1 - Flow Between Plates, Velocity Profile, Velocity Gradient, Shear Stress

58:01

BIOE 3310 Lecture 2 - Non-Newtonian Fluids

01:28:08

BIOE 3310 Lecture 0 - Fluid Definition, Shear Stress, Viscosity, and Velocity Gradient

01:15:37

BIOE 5820 Biomaterials Surface Modification

01:09:06

BIOE 5820 Biomaterials Protein Adsorption