Beneath Earth’s surface is a boundless source of energy - geothermal energy. Heated by our planet’s red-hot core, hot water and hot rock below the ground on which we walk already provides energy in many parts of the world, from Alaska to Hawaii. Discover the different forms of geothermal energy, how people are harnessing and using this rich supply, and how it could be an important part of our energy future.
Every structure that touches the ground could benefit from the skills of a geotechnical engineer. Readers will discover how these engineers study rocks, soil, natural processes, and potential hazards to help make the safest, strongest foundations possible. This book introduces key concepts and the engineering design process with interesting examples from the field. A hands-on activity and a design challenge engage readers in engineering action.
A fun and fascinating look at subterranean city spaces, this book takes readers on a tour through vaults, tunnels, shopping malls, and pathways built throughout the world. Cutaway illustrations and maps help readers understand how cities were built from the underground up.
Ever wonder how fault lines, caves, and volcanoes were formed and how people came to live on or next to them? Earth’s Underground Structures uses cutaway illustrations to examine some of the world’s most interesting natural underground structures created by Earth's forces and processes.
What lies beneath your city or town? Underground City Systems uses cutaway illustrations to explore the world’s great sewer and water systems. Readers will be amazed by such startling facts as the “fatberg” causing problems in London, England’s sewer system, and toilet-swimming sewer rats that plague all sewage systems. Readers will also learn about other underground services and systems, including heating and cooling, power and cable, as well as underground farming.
Deserts - both hot and cold - are home to animals that have adapted to dry conditions. From snakes to oryx, this title features enticing color photographs and engaging text that encourage readers to learn about these fascinating, and growing biomes.
Swamps, bogs, marshes are all wetland biomes teaming with life. Located on every continent except Antarctica, wetlands are diverse and necessary for a healthy planet. Readers will enjoy learning about swamp creatures such as alligators and snakes, and the many kinds of fish and plants that thrive in wetlands.
This engaging title introduces readers to one of the the richest biomes in the world - the rain forest. A special section on this habitat under threat helps readers use their mapping skills to research endangered rainforest animals.
Oceans cover 70 percent of Earth and make up the biggest biome on the planet! This title maps the territories and migration routes of animals in ocean, coral reef, and estuary biomes. Readers are asked to engage in a biome mapping activity to help reinforce understanding of the fragility of these water habitats.
Some of the world’s most interesting animals - lions, cheetahs, and bison - live on grasslands. These fragile ecosystems are often taken for granted and have been nearly wiped out in many places around the world. This colorful book introduces readers to this fascinating but constantly threatened landscape.
Mountains are alpine biomes, which are home to an intriguing number of plants and animals. Some mountain animals, such as the yak, have been adapted for agriculture by humans. This intriguing book soars to new heights with simple-to-understand maps and detailed facts about an often-overlooked biome.
Take a captivating journey across the continent of Europe to view the incredible array of plants and animals that live, hunt, and hide in Europe’s distinct habitats. Stunning photographs take you along the vast length of the Danube River, through ancient Caledonian pine forests, up active volcanoes, and across the Alps.
We cannot prevent volcanic eruptions, but we can try to minimize their impact on humans. This interesting book examines what scientists know about eruptions, whether we can predict them, and how we learn from each one. By studying the destruction they cause, scientists and engineers continue to come up with new and improved technologies to predict volcanic eruptions and make cities, buildings, and people safer. Case studies and brief bios of key scientists and organizations highlight the information.
We cannot always prevent landslides and avalanches, but we can learn how to minimize their impact on humans. This informative book examines what scientists know about the sudden movement of earth or snow, whether we can predict these slides, and how we learn from each event. By studying the harm they cause, scientists and engineers continue to come up with new and improved technologies to predict landslides and avalanches and make cities, buildings, and people safer. Case studies and brief bios of key scientists and organizations highlight the information.
We cannot prevent heat waves or droughts, but we can try to minimize their impact on humans. This important book examines what scientists know about extreme heat events, whether we can predict them, and how we learn from each one. By studying the harm they cause, scientists and engineers continue to come up with new and improved technologies to predict extreme weather and make cities, buildings, and people safer. Case studies and brief bios of key scientists and organizations highlight the information.
We cannot prevent blizzards and ice storms, but we can learn how to minimize their impact on humans. This informative book examines what scientists know about extreme ice and snowfalls, whether we can predict them, and how we learn from each event. By studying the destruction they cause, scientists and engineers continue to come up with new and improved technologies to predict winter storms and make cities, buildings, and people safer. Case studies and brief bios of key scientists and organizations highlight the information.
As people expand settlement into wilder areas, the impact of wildfires, both naturally occurring and human-set, becomes more destructive. This timely book examines what scientists know about wildfires, whether we can predict them, and how we learn from each event. By studying the destruction they cause, scientists and engineers continue to come up with new and improved technologies to predict and control wildfires and better protect cities, buildings, and people. Case studies and brief bios of key scientists and organizations highlight the information.
We cannot prevent tsunamis, but we can try to minimize their impact on humans. This interesting book examines what scientists know about tsunamis, how we can predict them, and how we learn from each event. By studying the destruction they cause, scientists and engineers continue to come up with new and improved technologies to predict catastrophic waves and better protect cities, buildings, and people. Case studies and brief bios of key scientists and organizations highlight the information.
We cannot prevent tornadoes, but we can try to minimize their impact on humans. This important book examines what scientists know about tornadoes, how we can predict them, and how we learn from each event. By studying the destruction they cause, scientists and engineers continue to come up with new and improved technologies to predict severe weather and better protect cities, buildings, and people. Case studies and brief bios of key scientists and organizations highlight the information.
Flooding from torrential rain and melting snows can devastate areas where people live. This informative book examines what scientists know about flooding, whether we can predict floods, and how we learn from each event. By studying the destruction they cause, scientists and engineers continue to come up with new and improved technologies to predict severe weather and better protect cities, buildings, and people. Case studies and brief bios of key scientists and organizations highlight the information.
We cannot prevent earthquakes, but we can try to minimize their impact on humans. This important book examines what scientists know about earthquakes, whether we can predict them, and how we learn from each event. By studying the destruction they cause, scientists and engineers continue to come up with new and improved technologies to predict earthquakes and make cities, buildings, and people safer. Case studies and brief bios of key scientists and organizations highlight the information.
This fantastic journey through the continent of South America helps show how humans affect, and are affected by, the environments in which they live. Readers will gain an understanding of the continent's various landforms, resources, and human activities. Examples featured include walking along the Inca Trail in Peru, riding a cable car in Bolivia, and taking a water taxi in Suriname.
This amazing journey through the continent of North America helps show how humans affect, and are affected by, the environments in which they live. Readers will gain an understanding of the continent's various landforms, resources, and human activities. Examples featured include dog sledding in Greenland, floating on a barge down the Mississippi River, and driving by truck along the Pan American Highway.
This engaging journey through the continent of Europe helps show how humans affect, and are affected by, the environments in which they live. Readers will gain an understanding of the continent's various landforms, resources, and human activities. Examples featured include traveling by train through a tunnel in the Alps, riding a water bus in the canals of Venice, and cycling along the Danube River.
This awe-inspiring journey through the continent of Australia helps show how humans affect, and are affected by, the environments in which they live. Readers will gain an understanding of the continent's various landforms, resources, and human activities. Examples featured include traveling on horseback through the Outback, bushwalking through Kakadu National Park, and flying by seaplane over the Great Barrier Reef.
