Author(s)

Lena J-T Strömberg

Previously Sigma, epsilon engrg, and Dep of Solid Mech, Royal Inst of Techn, KTH, Stockholm, Sweden.

Present long range interactions for signals, as well as large scale rare phenomena at Earthquakes are subjects of wave dynamics with large impact. Here, that will be addressed in a general (science fiction) format. The method used is based on energy balance for a continuum and kinematics of noncircular orbits, nco. Released vortex formation in a process invoking escape velocity for beamed up Dinosaurs, is modeled with fluid dynamics of a Helix. It is found that elasticity in terms of volumetric changes and vorticities interact giving large velocities and interchange of potential and kinetic energies. The model is an example of atmosphere integrative physiology.

Angular Velocity, Vorticity, Eddy, Fluid Dynamics, Helix, Noncircular Orbit, Nco, Energy Balance, Density, Integrative Physiology, Dinosaur, Beam up

Strömberg, L. (2017) Dinosaur Dynamics in an Integrative Model for Rotating Rocks and Deformable Bodies. Open Journal of Molecular and Integrative Physiology, 7, 35-40. doi: 10.4236/ojmip.2017.73003.