Every bending mechanism gets governed by the simple bending equation M/I=F/y=E/R
This is the method in which the structure is analyzed by elastic theory i.e. theory of simple bending in which materials obey the Hook's law.
Assuming linear elastic bending with small deformations and planes perpendicular to the neutral axis remain plane after bending, then for a rectangular beam: Moment = (Yield Stress)*(Second Moment of Area)/(Distance of surface to Neutral Axis) For Ultimate Bending Moment, assume stress is uniform throughout the beam, and acting through half the distance from surface to neutral axis, then: Moment = Stress * (Area/2)*(h/4 + h/4) For a better visualization check out Popov's textbook, Engineering Mechanics of Solids, Chapter 6, Section 6.10
your face for gods sake
The definition of elastic vibration was found in the website at the bottom. Elastic vibration is oscillating movement of a solid object in which a large majority of the energy is retained though elastic forces and with inertia of the object.www.answers.com/topic/elastic-vibration
An elastic foundation is a foundation that is not rigid and follows Hook's law. The implications of an analysis on an elastic foundation are that you can no longer assume zero deflection from at the base of loaded structures.
Springback means Recovered elastic strain on material after the load is removed.
elastic limit
elastic limit
A good example of Bending Force would be a beam or a pillar. Also a rubber band or elastic. I hope this helped, M.M.
A good example of Bending Force would be a beam or a pillar. Also a rubber band or elastic. I hope this helped, M.M.
From the Hooke law, stress s is proportional to strain e; s = Ee where E is elastic modulus of the material; the stress is the bending stress which varies from plus on one surface to minus on the opposite surface.
Depending on your elastic's thickness and how much fabric you are guiding into the elastic, I would use a standard needle (12) with a stretch stitch on my machine. Kate
Elastic potential energy depends on the distance the object is compressed or stretched.
about the thickness of the elastic on an average pair of men's underpants. or about 2/50ths of an inch.
This is the method in which the structure is analyzed by elastic theory i.e. theory of simple bending in which materials obey the Hook's law.
it depends on modulus of elasticity / young's modulus,,,,,,,which is ratio of stress and strain under elastic limit
No.