04:05

UD-MEEG331-Ch1-14b: Surface Tension As Line Force

03:22

UD-MEEG331-Ch1-14a: SurfaceTension

11:35

UD-MEEG331-Ch1-13: Psat and Cavitation

05:31

UD-MEEG331-Ch1-6 Units Of Viscosity

03:44

UD-MEEG331-Ch1-12: Density, Specific Weight, Specific Gravity

04:36

UD-MEEG331-Ch1-8 Why Does Viscosity Exist

04:00

UD-MEEG331-Ch1-11 Non-Newtonian Fluids

02:22

UD-MEEG331-Ch1-9 Viscosity Trends In Liquids

04:30

UD-MEEG331-Ch1-7 Trends In Viscosity

01:31

UD-MEEG331-Ch1-5 No Slip Condition

04:33

UD-MEEG331-Ch1-4 Fluid Response To Shear (Viscosity)

07:32

UD-MEEG331-Ch1-3 BulkModulus

04:09

UD-MEEG331-Ch1-2 FluidsArentSolids

04:12

UD-MEEG331-Ch1-1 Difference Between Liquids and Gases

16:36

Rotating Viscometer Example

08:55

Parallelization Strategies of the FD-PML method: Poster

31:33

Kronig-Penny Example

11:46

Phonons 3D (part 4): Properties of 3D Phonons

14:16

Phonons 3D (part 3): Obtaining the Dynamic Matrix (aka Eigenvalue Problem)

11:49

Phonons in 3D (Part 1): Form of the Solution

09:57

Phonons in 3D (Part 2): IFCs

09:45

Non-dimensionalizing Differential Equations

30:36

Creating & Editing Questions in Canvas Quizzes

23:02

Walkthrough of Canvas Quiz Types

05:30

Basic Question Types: Canvas Quiz

12:16

Setup Details for Canvas Quizzes

04:27

CreatingACanvasQuiz

11:47

Flash Diffusivity Solution

03:26

Thermoelectric Effects 9: Limitations to the Weidemann-Franz Law

02:40

Thermoelectric Effects 8: Temperature Dependence of ke

01:31

Thermoelectric Effects 7: Weidenmann-Franz Law Applied to Copper

02:51

Thermoelectric Effects 6: Wiedemann-Franz Law

04:08

Thermoelectric Effects 5: Thermal conductivity due to electrons

07:38

Thermoelectric Effects 4: Electrical Conductivity

06:36

Thermoelectric Effects 3: Thermoelectric Transport Coefficients

02:44

Thermoelectric Effects 2: Expanding The Gradient

02:52

Thermoelectric Transport 1: BTE Charge Flux Formulation

06:17

BTE: Gases: Thermal Conductivity 2: Results

03:15

BTE: Application to Gases: Thermal Conductivity 1: Formulation

06:12

Electroosmotic Pumping 1: Theory

04:40

Electroosmotic Pumping 2: Effectiveness

02:52

Charge Double Layers 6: Debye Screening Length Example

01:33

Charge Double Layers 5: Zeta Potential

02:19

Charge Double Layers 3: Boundary Conditions

04:50

Charge Double Layers 4: Solution

05:51

Charge Double Layers 2: Applying Gauss's Law

05:23

Charge Double Layers 1: Introduction

05:10

Brownian Motion 2: Connection to Diffusivity

08:40

Brownian Motion 1: Particles Moving Under Random Forcing

02:12

Eyring Theory 4: Example Calculation for Benzene

02:08

Eyring Theory 3: Writing Viscosity in Terms of Molar Quantities

03:45

Eyring Theory 2: Viscosity of Simple Liquids

05:01

Eyring Theory 1: Hopping Rates

07:58

Blackbody Radiation 1 Stefan Boltzmann Law & Constant

04:01

Blackbody Radiation 2 Wien's Displacement Law

16:02

TDTR Theory 13: Using Matrix Transformations to find G

03:59

TDTR Theory 14: Summary Of TDTR Simulation Algorithm

05:45

TDTR Theory 12: Diffusion Equation In Transformation Coordinates

03:12

TDTR Theory 11: Point Response Function Primer

01:57

TDTR Theory 10: Hankel Transform of the Pump and Probe beams