Learn how sharkskin has helped scientists create more effective swimsuits.
Learn how woodpeckers have inspired scientists to create new and improved helmet technology.
Learn what it takes to become an aircraft pilot in the U.S. military.
Learn what it takes to become an avionics technician in the U.S. military.
Learn what it takes to become a helicopter crew chief in the U.S. military.
Learn what it takes to become a drone pilot in the U.S. military.
Learn what it takes to become an information systems technician in the U.S. military.
Learn what it takes to become a motor transport operator in the U.S. military.
Learn about how nature has inspired technological innovations with this book on the similarities between butterfly wings and display technology for digital screens. Integrating both historical and scientific perspectives, this book explains how butterfly wings inspired the invention of new digital display technology. Readers will make connections and examine the relationship between the two concepts. Sidebars, photographs, a glossary, and a concluding chapter on important people in the field add detail and depth to this informational text on biomimicry.
Learn about how nature has inspired technological innovations with this book on the similarities between termite dens and a new office building design. Integrating both historical and scientific perspectives, this book explains how termite dens inspired a new office building design. Readers will make connections and examine the relationship between the two concepts. Sidebars, photographs, a glossary, and a concluding chapter on important people in the field add detail and depth to this informational text on biomimicry.
Learn about how nature has inspired technological innovations with this book on the similarities between gecko feet and a new adhesive tape. Integrating both historical and scientific perspectives, this book explains how gecko feet inspired the invention of an adhesive. Readers will make connections and examine the relationship between the two concepts. Sidebars, photographs, a glossary, and a concluding chapter on important people in the field add detail and depth to this informational text on biomimicry.
Learn about how nature has inspired technological innovations with this book on the similarities between an African plant and preserving vaccines. Integrating both historical and scientific perspectives, this book explains how a plant inspired the invention of a new way to preserve vaccines. Readers will make connections and examine the relationship between the two concepts. Sidebars, photographs, a glossary, and a concluding chapter on important people in the field add detail and depth to this informational text on biomimicry.
The Arduino is a small inexpensive computer that can be used to build and program almost anything a maker can imagine. Readers will discover new processes, integrate visual information with text, and learn technical word meanings as they read the history of the Arduino and see how makers have put it to use in their inventions. They will also find out how to set up and program their own Arduino devices.
Computers and electronic technology have gotten so small and portable that they can be woven into the fabric we wear. Readers will discover new processes, integrate visual information with text, and learn technical word meanings as they find out how makers are creating interesting new inventions from e-textiles. They will also discover how to make their own e-textile devices with a variety of fun activities.
Digital badges offer a new way of showing off some of your most impressive accomplishments. Readers will discover new processes, integrate visual information with text, and learn technical word meanings as they find out how digital badges work and how to begin earning them. They will also find out how to create and award badges of their own to people who accomplish amazing tasks.
Around the world, makers come together to share their ideas and inventions at Maker Faires. Readers will integrate visual information with text and learn technical word meanings as they read what it is like to visit these incredible events and see some of the world's most innovative new projects. They will also find out how to volunteer at Maker Faires or event plan their own maker events.
The Raspberry Pi is a small computer that allows almost anyone to learn about computer programming. Readers will discover new processes, integrate visual information with text, and and learn technical word meanings as they find out how the Raspberry Pi was invented and how makers are using it today. They will also learn how to set up and begin programming their own Raspberry Pis.
Makers often come together to form communities where they can exchange ideas and equipment. Readers will set foot in some of the world's most interesting makerspaces and see what kinds of tools makers use to create their projects. They will also learn how to find makerspaces of their own.
Learn how to create web pages using HyperText Markup Language. Readers will learn some coding basics and be inspired to create their own webpages. Photos, sidebars, and callouts help readers draw connections between new concepts in this book and other makers-related concepts they may already know. Additional text features and search tools, including a glossary and an index, help students locate information and learn new words.
This book discusses the science behind earthquakes and their effects. The chapters examine case studies of destructive hurricanes, explain how hurricanes form, and show how scientists are working to predict hurricanes and prevent damage. Diagrams, charts, and photos provide opportunities to evaluate and understand the scientific concepts involved.
This book discusses the science behind bridge collapses and their effects. The chapters examine historical bridge collapses, explain how bridges are designed and built, and show how scientists and engineers are working to prevent future collapses. Diagrams, charts, and photos provide opportunities to evaluate and understand the scientific concepts involved.
This book discusses the science behind pandemics and their effects. The chapters examine the deadliest pandemics in history, explain how these diseases spread so quickly, and show how scientists are working to prevent and contain future disease outbreaks. Diagrams, charts, and photos provide opportunities to evaluate and understand the scientific concepts involved.
This book discusses the science behind plane crashes. The chapters examine the worst plane crashes in history, explain how aircraft fail, and show how scientists and engineers are designing safer aircraft. Diagrams, charts, and photos provide opportunities to evaluate and understand the scientific concepts involved.
This book discusses the science behind earthquakes and their effects. The chapters examine notable earthquakes in history, explain why earthquakes occur, and show how scientists and engineers are working to understand earthquakes and build damage-resistant structures. Diagrams, charts, and photos provide opportunities to evaluate and understand the scientific concepts involved.
This book discusses the science behind oil spills and their effects. The chapters examine history's worst oil spills, explain how oil spills happen, and show how scientists are developing safer ways to collect and transport oil. Diagrams, charts, and photos provide opportunities to evaluate and understand the scientific concepts involved.