To study the behavior of individual animals

To analyze the interaction between two dependent populations

To calculate the speed of predators

To predict weather patterns

Trigonometric functions

Matrix operations

Lotka-Volterra equations

Algebraic equations

Growth rate is independent of population size

Resources are unlimited

Population size is constant

Change over time is proportional to population size

It stabilizes the growth rate

It has no effect

It diminishes the growth rate

It increases the growth rate

It is unaffected by predators

It competes with predators for resources

It provides a food source for predators

It decreases the predator population

A state where only one population survives

A state where both populations are zero

A state where population sizes remain constant

A state where both populations grow indefinitely

Approximate solutions over time

Exact solutions to differential equations

The maximum population size

The minimum population size

It predicts infinite population growth

It assumes constant environmental conditions

It does not account for resource limitations

It cannot model population cycles

Trigonometric identities

Second-order differential equations

First-order differential equations

Matrix algebra