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MideCali Engineer @[email protected]

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05:49
Root equation using Gauss-Seidel or Gauss Method - Numerical Methods Work-through
07:48
Roots of equation using false position or Regula-falsi - Numerical Method Walk-through
08:49
Roots of Equation using Newton-Raphson method - Numerical Methods Walk-through
04:20
Roots of Equation using Newton-Raphson method - Numerical Methods Walk-through
04:20
Roots of Equations using Bisection Method - Numerical Methods Walk-through
04:20
Runge-Kutta Method - Numerical Methods Walk-through
04:54
Modified or Improved Euler Method - Numerical Method walk-through
11:54
Determine miller indices for directions
21:26
How to find Miller-Bravais Indices for Planes in Hexagonal Lattice System
08:56
Capillary Action (Rise) - Surface Tension of water, Cohesive and Adhesive Forces.
17:47
Newton's Law of Viscosity - Dynamic Viscosity & Velocity Gradient - Fluid Mechanics
54:32
Determine the Crystal structure, Lattice Parameter, Indices of Planes and Interplanar Spacing.
19:28
Determine the Crystal Structure, indices, lattice parameter and interplanar spacing of Xrd pattern
22:43
Planar Density for BCC planes (100), (110) and (111).
09:22
Planar Density for BCC Plane (111)
06:44
Planar Density for BCC plane (110)
06:38
Planar Density for BCC Plane (100)
20:41
Miller Indices for Crystal Structure - Crystallographic Planes
21:16
Crystallographic Directions in Hexagonal Crystals 2 - Miller Bravais Indices
14:50
Crystallographic Directions in Hexagonal Crystals 3 - Miler Bravais Indices
23:35
Crystallographic Directions in Hexagonal Crystals 1- Miller Bravais Indices
03:28
Bulk Modulus of Elasticity - Transport Phenomena in Materials Processing - Fluid Mechanics
03:05
U Tube Manometer - Pressure, Density & Height of water & Mercury - Fluid Mechanics
02:53
Absolute and Gauge Pressure 2 - Transport Phenomena in Materials Processing - Fluid Mechanics
02:53
Absolute and Gauge Pressure 2 - Transport Phenomena in Materials Processing - Fluid Mechanics
03:45
Absolute and Gauge Pressure - Transport Phenomena in Materials Processing - Fluid Mechanics
03:04
How to draw Venn Diagram using MS Word
01:38
How to access equation editor in Word
10:18
Shape Memory Alloys - The Metals That Remember Their Shape.
06:05
Miller indices 05 - Determine the Crystallographic Directions
06:48
Calculate the theoretical volume change accompanying a polymorphic transformation in pure sodium
08:50
A gold foil is 0.08mm thick and 670mm² in area, the structure is cubic with a = 0.4076nm.
04:04
Copper (atomic mass 63.5 g/mole) has a FCC lattice and a density of 8.93 g/cm³
05:12
Copper has an atomic radius of 0.128nm, an fcc structure and an atomic weight of 63.5g/mol
12:35
Miller Indices 04 - how to Identify indices for Directions
12:23
Rotational Symmetry Operations
12:30
Derivation of Atomic Packing Factor (APF) of HCP
06:42
Calculating Cation-Anion Radius Ratios for Coordination Number 8
05:15
Show that the minimum cation-to-anion radius ratio for a coordination number of 6 is 0.4142
11:23
Calculating Cation-Anion Radius Ratios for Tetrahedral Coordination Number 4
05:38
Cation - Anion Radius Ratio for Coordination Number 3
11:00
The Power of Materials Engineering : Unlocking the Future
10:25
Why Materials Engineering?
01:38:01
Miller indices, APF, Coordination Number, Miller Bravais, Planar Density of unit cells.
13:42
Planar Density for FCC Planes (111) (110) and (100)
04:11
Visual Basic Language - Add and subtract two integer numbers and Use message box for outputting
03:28
Visual Basic Language - command button copies text from first textbox to second textbox in size 28
06:34
Visual Basic Language - Command buttons name, department, clear and exit.
04:15
Visual Basic Language - click on the command button name and your name appears on label
10:29
Conversion from 3 to 4-index system - Miller Bravais Indices
17:00
Miller Indices 03 - Coordinates and how to draw crystallographic planes
15:13
Miller indices 02 - Drawing crystallographic Directions
13:06
Miller Indices 01 - Identifying Crystallographic Directions
17:02
Atomic radius, Lattice parameter and APF of SC, BCC & FCC
05:18
Number of Atoms in Simple Cubic, BCC and FCC
06:17
Coordination Number of Simple Cubic, BCC, FCC and HCP
07:24
Introduction to Kirchoff's Current and Voltage Laws (KCL & KVL) in fundamentals of Elect engineering
07:58
Nodes, Branches and Loops (All elements of a circuit)
05:20
Ohm's Law, Resistors (series & parrallel) & Conductance G - Basic laws
03:33
Relationship between Charge, Power, Energy, Voltage & Current - Fundamental Electrical Engineering