A simple algorithm for solving the cable equation in
... neuron, it is important to calculate the effect of an active synapse on the membrane potential at the dendrite and at the soma. Such a study was initiated by Rall and co-workers (for a review see Rail, 1977) who investigated the solution of the cylindrical cable equation for different cable configur ...
... neuron, it is important to calculate the effect of an active synapse on the membrane potential at the dendrite and at the soma. Such a study was initiated by Rall and co-workers (for a review see Rail, 1977) who investigated the solution of the cylindrical cable equation for different cable configur ...
UNIVERSITY OF CALICUT (Abstract) B.Sc programme in Mathematics – School of Distance
... Graphing in polar co-ordinates ...
... Graphing in polar co-ordinates ...
notes section 3.1
... Where does our number system come from? The simple answer is from the Hindu-Arabic system (a base 10 place holder system) which has influenced from the fact that we have 10 fingers! Our Number System has become more clearly defined with history. We now categorize of numbers as follows. ...
... Where does our number system come from? The simple answer is from the Hindu-Arabic system (a base 10 place holder system) which has influenced from the fact that we have 10 fingers! Our Number System has become more clearly defined with history. We now categorize of numbers as follows. ...
Document
... 2.1 – Linear Equations in One Variable Algebraic equation is a statement that two expressions have equal value. ...
... 2.1 – Linear Equations in One Variable Algebraic equation is a statement that two expressions have equal value. ...
Mathematics of radio engineering
The mathematics of radio engineering is the mathematical description by complex analysis of the electromagnetic theory applied to radio. Waves have been studied since ancient times and many different techniques have developed of which the most useful idea is the superposition principle which apply to radio waves. The Huygen's principle, which says that each wavefront creates an infinite number of new wavefronts that can be added, is the base for this analysis.