They are only found in natural environments.

They cannot be modeled or simulated.

They are always unpredictable.

They can often be explained by simple mechanisms.

The cell becomes overcrowded.

The cell dies.

The cell remains unchanged.

The cell comes to life.

To simulate real-life biological processes.

To demonstrate how simple rules can create complex patterns.

To entertain players with complex puzzles.

To teach programming skills.

By randomly selecting other members.

By connecting with the most popular members first.

By connecting with members who have no connections.

By connecting with the least popular members first.

A random spinner.

A coin toss.

A voting system.

A popularity contest.

Complex systems are only found in mathematics.

Complex systems are impossible to understand.

Simple systems are more interesting than complex ones.

Simple rules can lead to complex outcomes.

It helps in predicting future events accurately.

It simplifies the study and understanding of complex systems.

It eliminates the need for further research.

It proves that all systems are inherently simple.