06:02

FEA HT Demo 1: Problem Definition

26:01

UD MEEG331 Ch5 4 Ex3 ConvergingNozzle

23:00

UD MEEG331 Ch5 3 Ex2 ObliquePlate

13:57

UD MEEG331 Ch6-2: Example Jet on Vertical Plate

06:38

UD MEEG331 Ch5 1 Intro Linear Momentum Conservation

07:41

MEEG331 Ch4 12: RTT Sprinkler Example

05:53

MEEG331 Ch4 11 RTT example bellows v2

08:53

MEEG331 Ch4 10: RTT example bellows v1

04:35

MEEG331 Ch4: Leibnitz Theorem for 1D, steady mass conservation

17:01

MEEG331 Ch4: Reynolds Transport Theorem pt 1 (Derivation)

07:43

MEEG331- Ch4 - Leibnitz Theorem

02:09

Reynolds Transport Theory: Overview

05:13

MEEG331 Ch4 Bernoullis Example Pitot Tube

07:28

MEEG331 Ch4 Bernoulli's Equation Example: Stag Pressure/Compressibility

01:49

MEEG331 Ch4 6: Mass Flowrate

01:35

MEEG331 Ch4 5: Average Velocity

03:11

MEEG331 Ch4 4: Volumetric Flowrate

10:08

UD MEEG331 Ch4 3: Bernoulli'sTheorem Derivation

05:42

UD MEEG331 Ch4 2: Euler's Equation Derivation

05:27

MEEG331 Ch4 1: Overview Pointwise vs Aggregate Behaviors

04:29

UD MEEG331 Ch3 18: Streamline Ex3 Source Flow

06:10

UD MEEG331 Ch3 17: Streamline Ex 2 Stagnation Flow

09:10

UD MEEG331 Ch3 16: Streamline Ex1 Solid Rotation

01:37

UD MEEG331 Ch3 15: Example Streamwise Acceleration

04:16

UD MEEG331 Ch3 14: Streamwise Acceleration

08:13

UD MEEG331 Ch3 12: Acceleration and Material Derivatives

03:26

UD MEEG331 Ch3 13: Example of Material Derivative

06:31

MEEG331-Ch2-X-Resultant Force Curved Objects corrected

05:40

MEEG331 Ch3 11: Dimensionality Of Flows

01:29

MEEG331 Ch3 10: Streak/Stream/Path line Equivalence

02:01

MEEG331 Ch3 9: Streaklines

02:53

MEEG331 Ch3 8: Pathlines

03:38

MEEG331 Ch3 7: Streamlines

02:41

MEEG331 Ch3 6: Quiver Plot

06:40

MEEG331 Ch3 5: Eulerian Frame

05:02

MEEG331 Ch3 4: More On Turbulence

03:10

MEEG331 Ch3 3: More On Reynolds Number

05:47

MEEG331 Ch3 2: Turbulence And Reynolds Number

03:34

MEEG331 Ch3 1 Laminar Flow

06:03

UD MEEG331 Ch2 18: Stability Of Floating Structures

04:17

UD-MEEG331-Ch2-15a: Archimedes Principle

03:09

UD-MEEG331-Ch2-17: Floating

03:12

UD MEEG331 Ch2 16 Notes On Archimedes Principle

02:50

UD MEEG331 Ch2 12: xcp (fast way)

03:03

UD MEEG331 Ch2 11: ycp, Planar Object

02:25

UD MEEG331 Ch2 10: Resultant Force, Planar Objects

02:37

UD MEEG331 Ch2 9: Resultant Force pt 1 - Setup

03:18

UD-MEEG331-Ch2-7: Pressure Transducers

03:22

UD-MEEG331-Ch2-6: Bourdon Gauges

05:36

UD-MEEG331-Ch2-5: Differential Manometer

01:28

UD-MEEG331-Ch2-4a: Manometer Rule

03:54

UD-MEEG331-Ch2-4-Manometer

04:04

UD-MEEG331-Ch2-3: Barometers

04:40

UD-MEEG331-Ch2-2: rho_g_h

04:32

UD-MEEG331-Ch2-1-PascalsLaw

04:48

UD-MEEG331-Ch1-19: Applications Of Capillary Forces

04:07

UD-MEEG331-Ch1-18: Capillary Height, pt2 w numbers

03:14

UD-MEEG331-Ch1-17: Height Of A Column pt1

06:03

UD-MEEG331-Ch1-16: Capillarity And ContactAngle

03:22

UD-MEEG331-Ch1-15v2: Internal Pressure Due to Surface Tension in Bubbles & Droplets