Difference between revisions of "Energy, force, and stiffness"

Revision as of 18:56, 9 September 2020

Energy, force, and stiffness. These are derivatives of each other.
Or, the other way around, antiderviatives.

• stiffness * path = force - and - force * path = energy
• energy per path = force - and - force / path = stiffness

Thus we have:

• Integration: stiffness => force => energy
• Differentiation: energy => force => stiffness

Models for chemical bonds

There are several models approximating the behaviour of chemical bonds in a mass and spring model.

• Lennard Jones Potential
• …

These is by far not as accurate as quantum mechanical modelling, but depending on the problem at hand this can more than suffice.

From this energy curve a force curve and a stiffness curved can be derived by taking the first and second spacial derivative. Note that in 3D this would give a force vector field and a stiffness tensor field.

From the original and the derive curves special values can be read out.

Special values

• total bond energy (equivalent to bonds toughness)
• Absolute tensile strength
• point of highest stiffness
• there are some more …

Further related topics

• Historically caused focus on energies and frequencies
• Comparison of all three properties for gaining a better intuitive feel