An elementary student tests a wind turbine model that generates 0.2 watts per square meter of blade area. If the turbine has 15 square meters of blade area, how much energy does it generate in 8 hours? - Appcentric
How Much Energy Does a 15 m² Wind Turbine Generate in 8 Hours? Understanding Power Output Explained
How Much Energy Does a 15 m² Wind Turbine Generate in 8 Hours? Understanding Power Output Explained
Renewable energy is becoming a critical part of our future, and hands-on science projects help young students explore how wind energy works. Recently, an enthusiastic elementary student designed a simple wind turbine model to test how much electricity it generates. With a blade area of 15 square meters and an output of 0.2 watts per square meter, this small but meaningful project offers a clear way to understand energy production from wind.
Calculating Power Output
The student’s turbine produces 0.2 watts for every square meter of blade area. With 15 square meters of blade area, the total power generated is calculated as:
Understanding the Context
0.2 watts/m² × 15 m² = 3 watts of power at peak performance
This means under optimal wind conditions, the turbine generates 3 watts continuously when fully operational.
Energy Generation Over Time
Power measures how fast energy is produced, measured in watts (W), while energy measures total output over time, measured in watt-hours (Wh). To find the total energy generated, multiply power by time:
Energy (Wh) = Power (W) × Time (hours)
Energy = 3 watts × 8 hours = 24 watt-hours
Key Insights
Real-World Implication
While 24 watt-hours might seem small, this small-scale model demonstrates the foundational principle behind wind energy: efficient blade design increases power output. This simple experiment helps students grasp how renewable technologies convert kinetic energy into electricity—an essential step toward sustainable energy literacy.
Conclusion
At full capacity, a wind turbine with 15 m² of blade area generates 0.2 watts per square meter, producing 3 watts total. Over 8 hours, that output equates to 24 watt-hours of energy. This elementary restoration project beautifully illustrates the power of basic physics and renewable innovation, inspiring young minds to explore clean energy’s future.
