Sustainable Energy by David J. C. Mackay
- 1. In his groundbreaking work 'Sustainable Energy – Without the Hot Air', David J. C. Mackay presents a comprehensive analysis of the global energy landscape, interweaving scientific rigor with accessible storytelling. Mackay, a physicist, challenges readers to confront the stark realities of energy consumption and sustainability, urging them to consider the feasibility of various renewable energy sources. Through meticulously presented data, he elucidates the potential roles of solar, wind, hydroelectric, and geothermal energy in creating a sustainable future while also addressing the limitations and challenges associated with each. By employing clear graphs and straightforward calculations, Mackay enables audiences to visualize the scale of energy demands and the stark contrast between those demands and the capabilities of current renewable technologies. His pragmatic approach encourages a critical examination of energy policies and individual behaviors, fostering a deeper understanding of how choices made today can impact future generations. Ultimately, Mackay advocates for an ambitious yet achievable transition to sustainable energy, highlighting the importance of informed decision-making grounded in scientific facts and realistic assessments of energy potentials.
What is the approximate power consumption of a typical human in watts, according to Mackay's baseline?
A) 250 W
B) 500 W
C) 125 W
D) 50 W
- 2. What unit does Mackay frequently use to measure energy consumption per day?
A) Joules per second
B) Watts per month
C) kWh per day
D) BTU per hour
- 3. How much energy does a typical UK citizen consume per day, according to Mackay's figures?
A) About 50 kWh per day
B) About 125 kWh per day
C) About 500 kWh per day
D) About 250 kWh per day
- 4. How does Mackay suggest we should think about energy numbers?
A) Compare everything to personal energy consumption
B) Ignore small contributions
C) Use only scientific notation
D) Focus on cost per unit
- 5. What is the power density of biofuels in W/m²?
A) About 5 W/m²
B) About 0.5 W/m²
C) About 0.05 W/m²
D) About 2 W/m²
- 6. What country does Mackay use as his primary case study?
A) United Kingdom
B) Germany
C) United States
D) China
- 7. What is the main advantage of pumped storage hydroelectricity?
A) Lowest cost per kWh
B) Energy storage for grid balancing
C) Highest power density
D) Zero environmental impact
- 8. How much land would be needed to power the UK with biofuels alone?
A) About 10% of UK land
B) About 50% of UK land
C) More than all UK land area
D) Less than 5% of UK land
- 9. What is Mackay's professional background?
A) Economics professor
B) Political scientist
C) Environmental engineer
D) Physics professor
- 10. What does Mackay emphasize about energy planning?
A) Cost as the only factor
B) Importance of public opinion
C) Need for arithmetic and realistic numbers
D) Focus on political feasibility
- 11. What is the main renewable energy source MacKay suggests could power Britain?
A) Offshore wind
B) Solar PV
C) Hydroelectric
D) Geothermal
- 12. What is the typical power density of solar photovoltaic panels in W/m²?
A) 5-20
B) 100-200
C) 50-100
D) 1-5
- 13. What country gets most of its electricity from hydroelectric power?
A) United Kingdom
B) Norway
C) France
D) Australia
- 14. What is the typical capacity factor of offshore wind farms?
A) 50-60%
B) 10-20%
C) 70-80%
D) 30-40%
- 15. What is the main energy source for photosynthesis?
A) Water
B) Soil nutrients
C) Sunlight
D) Atmospheric gases
- 16. What percentage of incoming solar radiation reaches Earth's surface?
A) 50%
B) 75%
C) 25%
D) 10%
- 17. What is the typical efficiency of a coal power plant?
A) 50%
B) 37%
C) 65%
D) 25%
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