Spidra Webster:
Breakers Gonna Break
Spidra Webster:
Strain Alone Won't Break Glass
Spidra Webster:
Glass Flaw Shape Types
Spidra Webster:
Glass Flaw Shape Types
Spidra Webster:
Stress Concentration or K Factor
Spidra Webster:
Stress Concentration Factors By Type of Flaws
Spidra Webster:
Cutting a Window Pane Demonstrates Strain on Flaw
Spidra Webster:
Where Do Flaws in Lab Glass Come From?
Spidra Webster:
Where Do Flaws in Lab Glass Come From?
Spidra Webster:
How To Avoid Flaws in Glassware
Spidra Webster:
Physical Strain Comes From Mechanical Force
Spidra Webster:
Short Video of Glassware Dropping to Floor
Spidra Webster:
Tensional Force from Pulling
Spidra Webster:
Tensional Force from Pulling
Spidra Webster:
Physical Strain Comes from Mechanical Force
Spidra Webster:
How to Prevent Failure Due to Physical Strain
Spidra Webster:
Reduce the Lever Arm
Spidra Webster:
How to Prevent Failure Due to Physical Strain
Spidra Webster:
How to Avoid Bending Glass to Failure
Spidra Webster:
Test Question 1
Spidra Webster:
Thermal Strain Comes From Expansion/Contraction of Glass
Spidra Webster:
Coefficient of Expansion of Some Common Glass Types
Spidra Webster:
Tubes Before Polariscope Imaging
Spidra Webster:
Polariscope
Spidra Webster:
Glass Poor Conductor of Heat
Spidra Webster:
Uneven Heating of Thick Glass
Spidra Webster:
Uneven Heating of Thick Glass
Spidra Webster:
Polariscope Image of Broken Glass
Spidra Webster:
Glassblowers Take Advantages of Weakness When Creating
Spidra Webster:
Glassblowers Take Advantages of Weakness When Creating
