The temperature—dependence of cationic conductivity,mobility and carrier generation in the blend of macromolecular lithium salt and copoly- ether were investigated.The population of free—ions was found to decrease e...The temperature—dependence of cationic conductivity,mobility and carrier generation in the blend of macromolecular lithium salt and copoly- ether were investigated.The population of free—ions was found to decrease exponentially with rising temperature.However,this“anomalous”behavior of salt—dissociation has little effect on the temperature—dependence of con- ductivity,since it is ion mobility rather than carrier ion number which predominates ion transport process.展开更多
We consider the motion of a massive point-like projectile thrown with initial velocity with respect to horizontal in a two-dimensional vertical plane under the influence of gravity in a viscose media. Two different ve...We consider the motion of a massive point-like projectile thrown with initial velocity with respect to horizontal in a two-dimensional vertical plane under the influence of gravity in a viscose media. Two different velocity-dependent resistive media models are considered—linear and quadratic. With an objective to utilizing a Computer Algebra System (CAS), specifically <em>Mathematica</em> [1] numerically we solve the corresponding equations of motions. For a set of compatible parameters characterizing viscose forces graphically we display comparing the trajectories explicitly showing the impact of the models. Utilizing the model-dependent trajectory equations numerically we evaluate their associated arc-lengths. What distinguishes our approach vs. the existing body of work is the notion of the “reverse engineering”. Meaning, utilizing our numeric data we establish their corresponding analytic counter parts. Ultimately, utilizing both outputs numerically and analytically we determine the matching initial projectile angles maximizing their respective arc-lengths.展开更多
文摘The temperature—dependence of cationic conductivity,mobility and carrier generation in the blend of macromolecular lithium salt and copoly- ether were investigated.The population of free—ions was found to decrease exponentially with rising temperature.However,this“anomalous”behavior of salt—dissociation has little effect on the temperature—dependence of con- ductivity,since it is ion mobility rather than carrier ion number which predominates ion transport process.
文摘We consider the motion of a massive point-like projectile thrown with initial velocity with respect to horizontal in a two-dimensional vertical plane under the influence of gravity in a viscose media. Two different velocity-dependent resistive media models are considered—linear and quadratic. With an objective to utilizing a Computer Algebra System (CAS), specifically <em>Mathematica</em> [1] numerically we solve the corresponding equations of motions. For a set of compatible parameters characterizing viscose forces graphically we display comparing the trajectories explicitly showing the impact of the models. Utilizing the model-dependent trajectory equations numerically we evaluate their associated arc-lengths. What distinguishes our approach vs. the existing body of work is the notion of the “reverse engineering”. Meaning, utilizing our numeric data we establish their corresponding analytic counter parts. Ultimately, utilizing both outputs numerically and analytically we determine the matching initial projectile angles maximizing their respective arc-lengths.
