EXPLANATORY NOTE «Investigation of the effects of
... radioactive elements which are the “fuel” for modern nuclear power stations may be replaced with other elements of Mendeleev’s periodic table. In this concern it is no necessity to remember about limits of per capita power consumption of the humanity as it is equal to infinity. Although with this pr ...
... radioactive elements which are the “fuel” for modern nuclear power stations may be replaced with other elements of Mendeleev’s periodic table. In this concern it is no necessity to remember about limits of per capita power consumption of the humanity as it is equal to infinity. Although with this pr ...
Hamilton`s principle
... classical action evaluated along the path of motion! Separating off time dependance corresponds to looking for stationary states, and problem often allow a separation of variables: ...
... classical action evaluated along the path of motion! Separating off time dependance corresponds to looking for stationary states, and problem often allow a separation of variables: ...
here
... Maxwell’s equations in the time domain is undoubtedly the FD-TD scheme developed by Yee [3] and later refined by many researchers [4–7]. FD-TD was originally developed on uniform Cartesian grid, and later was extended to handle body-fitted-curvilinear grids [8–10]. During the last decade, FD-TD has ...
... Maxwell’s equations in the time domain is undoubtedly the FD-TD scheme developed by Yee [3] and later refined by many researchers [4–7]. FD-TD was originally developed on uniform Cartesian grid, and later was extended to handle body-fitted-curvilinear grids [8–10]. During the last decade, FD-TD has ...
Example Problems for Diffusional Equilibrium
... the subsystems, carrying internal energy with them, the internal wall serves no real physical purpose; we could regard it merely as an imaginary boundary between two regions of a single physical system. Thus, the equilibrium state must be one in which the two subsystems have the same particle densit ...
... the subsystems, carrying internal energy with them, the internal wall serves no real physical purpose; we could regard it merely as an imaginary boundary between two regions of a single physical system. Thus, the equilibrium state must be one in which the two subsystems have the same particle densit ...
The Method of Vieta
... integers, some properties of their quotient are asked to be infered. The idea is to assume the existence of a solution for which the statement in question is wrong and then to consider the given relation as a quadratic equation in one of the variables. Using Vieta’s formula, we can construct another ...
... integers, some properties of their quotient are asked to be infered. The idea is to assume the existence of a solution for which the statement in question is wrong and then to consider the given relation as a quadratic equation in one of the variables. Using Vieta’s formula, we can construct another ...
Equations and Formulas
... The first 7 problems are pretty easy for students, but they are an important lead-in to part h. When students first encounter a problem like the one shown in part h, many try to simply write the answer down without following the same process as they do in R other equations, giving them answers like ...
... The first 7 problems are pretty easy for students, but they are an important lead-in to part h. When students first encounter a problem like the one shown in part h, many try to simply write the answer down without following the same process as they do in R other equations, giving them answers like ...
Module 6 : Wave Guides Lecture 43 : Rectangular Wave
... has to be non zero. Otherwise the transverse fields would become infinite. In other words, the TE and TM modes can not have the phase constant same as that of the unbound medium. The TE and TM modes then essentially have to be dispersive modes i.e., their phase velocity should vary as a function of ...
... has to be non zero. Otherwise the transverse fields would become infinite. In other words, the TE and TM modes can not have the phase constant same as that of the unbound medium. The TE and TM modes then essentially have to be dispersive modes i.e., their phase velocity should vary as a function of ...
