changes in a population's gene pool.
changes in a population's gene pool.
with the help of laplace transform the calculation part can be reduced in frequency domain .In time domain differential equations are used and solution is cumbersome.
changes in a population's gene pool.
Overproduction of offspring and more changes like adaptation for survival.
A phase diagram of a differential equation is a graphical representation that illustrates the trajectories of a dynamical system in the state space defined by its variables. Each point in the diagram corresponds to a particular state of the system, with arrows indicating the direction of movement over time based on the system's behavior. Phase diagrams help visualize stability, equilibrium points, and the overall dynamics of the system, making them essential tools in understanding the qualitative behavior of differential equations.
Differential reproduction refers to the process where individuals with certain traits are more likely to survive and reproduce than others. Over time, this can lead to the accumulation of advantageous traits in a population through natural selection, driving evolutionary change. This can result in adaptations that are better suited to the environment, increasing the overall fitness of the population.
A growth curve is a graphical representation of how the age of an organism increases over time.
Genetic changes
B
(which means 'wave writer') is a device that gives a graphical representation of spatial position over time in which a spatial axis represents time.
Partial differential equations can be used to model physical systems over time and so can for example describe how you walk. In such an application a faulty stride can be found by comparing a patient's walk with a 'normal' walk.
It slowly decreases it over time.