Hooke's Law to Relate External Load to Displacement - Example - Mechanics of Materials
This is an example video that demonstrates the process of determining the external load associated with a given displacement. Hooke's law is used to connect strain/displacement to stress/internal loading.
0:00 Introduction
0:34 Approach at a high level
1:11 Rigid beam displacement
2:00 Determine normal strain in rod
4:10 Hooke's law to relate strain to stress
5:29 Determine internal normal force in the rod
6:19 FBD and equilibrium
Видео Hooke's Law to Relate External Load to Displacement - Example - Mechanics of Materials канала structurefree
0:00 Introduction
0:34 Approach at a high level
1:11 Rigid beam displacement
2:00 Determine normal strain in rod
4:10 Hooke's law to relate strain to stress
5:29 Determine internal normal force in the rod
6:19 FBD and equilibrium
Видео Hooke's Law to Relate External Load to Displacement - Example - Mechanics of Materials канала structurefree
Показать
Комментарии отсутствуют
Информация о видео
Другие видео канала
Easy Shear Flow Example - Mechanics of Materials - Office Hours with Structure FreeNormal and Shear Strain Examples - Mechanics of MaterialsPosition, Velocity, and Acceleration in Polar Coordinates Derived - Engineering DynamicsVector Addition of Forces in 2-D with Parallelogram Law - Engineering Statics (L01-1)Shear Stress Due to Torsion - Mechanics - Office Hours with StructurefreeF=ma in xy comp and pulley - Dynamics - Office Hours with StructurefreeTributary Area Introduction and Examples - Structural AnalysisCurvilinear Motion with x-y Components Example - Dynamics - Office Hours with StructureFreeExample PMF, CDF, Mean, Median, Mode of a Discrete Random Variable (1/2) - Engineering Risk AnalysisPower and Torsion Introduction (2/2) - Mechanics of MaterialsBending Stress Calculations, Profiles, and Resultants Example - Mechanics of MaterialsAxial Deformation Due to Thermal Loading - Mechanics - Office Hours with StructurefreeCurvilinear Motion with x-y and n-t Components Example - Dynamics - Office Hours with StructureFreeF = ma Example w/ Normal and Tangential Components - Engineering DynamicsSteel Beam Behavior Summary - Steel DesignVector Addition of Forces in 2-D Using Cartesian Coordinates - Engineering Statics (L02-1)Angle of Twist Review Discussion - Mechanics - Office Hours with StructurefreeMaximum Load Mechanical Properties and Strain Example (2/2) - Mechanics of MaterialsPower and Torque Review - Mechanics - Office Hours with StructurefreeSoda Bottle Rocket Launch - Maryknoll High School, Hawaii