A biologist observes a population of 800 bacteria that doubles every 3 hours. How many bacteria are present after 15 hours? - Abbey Badges

Understanding the Context

In this study, a biologist begins monitoring a bacterial population of 800 cells. Since the population doubles every 3 hours, the growth follows a clear pattern:

• Generation time: Every 3 hours, the number of bacteria multiplies by 2.
  
• Total observation time: 15 hours
  
• Time intervals: 15 ÷ 3 = 5 doubling periods

Calculating Population After 15 Hours

Using the doubling model, the population after n doubling periods is calculated by:
Final population = Initial count × 2^n

Key Insights

Here, n = 5, so:
Final population = 800 × 2⁵
2⁵ = 32
800 × 32 = 25,600 bacteria

Real-World Implications

This exponential growth demonstrates why controlling bacterial populations is critical in medicine, food safety, and environmental science. Without intervention, even a small inoculum can rapidly become overwhelming. Biologists use such models to predict infection rates, optimize antibiotic treatments, and design sterilization protocols.

Conclusion

A simple bacterial culture of 800 cells, doubling every 3 hours, grows exponentially to 25,600 bacteria after just 15 hours. This insight underscores the importance of early observation and intervention in managing biological systems. For researchers and healthcare professionals, understanding population doubling time is essential in predicting and controlling microbial communities.

Final Thoughts

Discover more about bacterial growth kinetics and microbial ecology—key topics in modern biology and public health.