A mathematical model of settling velocity enhancement by kinetic control

This paper describes a new approach to control flexible robots. Many control schemes for flexible robots have been developed and published in robotics research literature. All of them assume the use of torque controlled actuators (DC-motors), while most commercially available robots have velocity co

The kmefic data of the polsoamg of a porous noble metal carrier-type catalyst by phosphorus were determmed durmg the total oxidation of ethane with au An approprrate mathematical model for the reactlon system mcludmg mtemal dlffuwon m the porous pellet was developed The expenmentally-obtamed data we

## Abstract Mathematical modeling of the thermopolymerization of FM and CMFMA was carried out using a cross‐linked kinetic model proposed for the photo‐initiated polymerization of acryl‐furanic compounds. In this model, the photochemical initiation step was substituted by a thermal one and it was a

The xanthophyll cycle is one of the mechanisms protecting the photosynthetic apparatus against the light energy excess. Its action is still not well understood on the molecular level. Our model makes it possible to follow independently the kinetics of the two de-epoxidation steps occurring in the xa

## Abstract The presence of non‐native kinetic traps in the free energy landscape of a protein may significantly lengthen the overall folding time so that the folding process becomes unreliable. We use a computational model α‐helical hairpin peptide to calculate structural free energy landscapes an