Using the phase plane program described in the introduction, plot the phase plane for the Lotka-Volterra model Here represents the population of a prey species, say mice, and is the population of a predator species, for example owls. If there are no owls, then the population of of mice grows exponentially, and if there are no mice, then the owls die off. However if the initial populations are both positive, then interesting stuff happens. Plot the phase plane including a number of solutions of this system with . You decide what is are good limits for your axes. Describe the solutions in a few words. Do you think that this model gives realistic behavior

Check the explanation

Explanation:

Kindly check the attached image.

The attached image below describes the inner equilibrium point is a stable node, here it's a center. These are periodic solutions. Populations of the mice and owls are periodic. It describes: when the mice population is lower, the owl population decreases; again the owl is lower so mice got a chance to grow its population; now as sufficient food(mice) is there, the owl population increases; as predator population increases, the prey population decreases;  and this continues as a cycle forever.

So, yes, the model gives a realistic behavior.

these  signals travel  down a part of the neuron called the axon, which is like a wire that carries the  signal  to othernerve  cells. on average a  nerve  cell sends a  signal  at about 50 meters per second, which is over 100  miles  an hour!