Books with author Matthew Brenden Wood

What are the forces behind ballistics? Why do rocks and rockets soar through the air in an arch? The game is on the line. Suddenly, you hear the crack of a bat and the roar of crowd. Where will the ball land? How far will it travel? Is it a home run? You might think that hitting a home run or nailing a three-pointer is just luck, but there are many forces at work that determine if you’ve made a game-winning shot or the final out. If you’ve ever kicked a ball, thrown a rock, or even played Angry Birds, you’ve experimented with the forces behind ballistics. In Projectile Science: The Physics Behind Kicking a Field Goal and Launching a Rocket with Science Activities for Kids,one of four titles in the Technology for Today set, kids ages 10 to 15 learn why projectiles follow the paths they do and what factors influence those paths. Readers who are fascinated with potato cannons, slingshots, and rocketry will love taking that next step and applying what they learn about the laws of physics to the science of figuring out where to aim. Math is the language you use to understand the science of ballistics. In this book, readers will learn about the forces that act on the projectiles and how to calculate those forces to make educated predictions about where their homemade rockets and other projectiles will land. 25 Safe, hands-on STEAM activities using materials that are easy to acquire are a terrific way to foster real-life learning about ballistics. Kids will perform Galileo's famous test for gravity, create clinometers to measure height and distance, and build a machine that can throw curve balls. Essential questions that promote critical examination of the science, primary sources, online videos, and science-minded engineering activities let readers have a blast learning about the physics of ballistics! In the Technology for Today set, readers ages 10 to 15 explore the digital and tech landscapes of today and tomorrow through hands-on STEAM activities and compelling stories of how things work, who makes them work, and why. Titles in this set include Industrial Design: Why Smartphones Aren’t Round and Other Mysteries with Science Activities for Kids; Big Data: Information in the Digital World with Science Activities for Kids; Projectile Science: The Physics Behind Kicking a Field Goal and Launching a Rocket with Science Activities for Kids; and Artificial Intelligence: Thinking Machines and Smart Robots with Science Activities for Kids. Nomad Press books integrate content with participation. Common Core State Standards, the Next Generation Science Standards, and STEM Education all place project-based learning as key building blocks in education. Combining content with inquiry-based projects stimulates learning and makes it active and alive. Nomad’s unique approach simultaneously grounds kids in factual knowledge while allowing them the space to be curious, creative, and critical thinkers.

Early science fiction imagined a world with space travel, video calls, and worldwide access to information, things we now know as NASA’s human spaceflight program, Skype, and the Internet. What next? Could we really bring back the dinosaurs, travel to a distant star, or live on Mars?In The Science of Science Fiction, readers ages 12 to 15 explore the science behind classic and modern science fiction stories, including artificial intelligence, androids, and the search for alien life. They learn how cutting edge concepts, including time dilation and genetic manipulation, influence today’s fiction.The Science of Science Fiction promotes critical thinking skills through inquiry, discovery, research, analysis, and reflection of key scientific ideas and concepts made popular by many titles in science fiction. Each chapter features informative sidebars and video and website links for an in-depth look at key topics. Science-minded experiments include a simple demonstration of artificial gravity using a bucket of water and calculating the speed of light using chocolate in a microwave. This variety of resources ensures the material is accessible to students with diverse learning styles.

On July 20th, 1969, Neil Armstrong landed gently on the lunar surface and became the first person to set foot on another world. People around the world stopped what they were doing to crowd around television sets and radios to witness one of the greatest achievements in human history--a man walking on the moon. How did we get there? Why haven't we gone back? In The Space Race: How the Cold War Put Humans on the Moon, kids ages 12 to 15 explore the race to the moon against the chilling backdrop of the Cold War. The Space Race was the period during and after the Cold War when America and the Soviet Union participated in a fierce competition to see which country could beat the other into space. It was a time of bitterness, fear, and secrecy, but it was also a moment in history when two countries directed resources toward pushing themselves to reach goals that were once thought unattainable. Would we have succeeded as far as we did without the competition to be first? While Neil Armstrong will be remembered as the first person to set foot on the moon, the people and events behind this accomplishment populate a fascinating tale of politics, science, technology, and teamwork that resulted in what might be the greatest accomplishment of the twentieth century. In The Space Race, middle school students explore this history of science and discover the political, social, and economic factors that led to incredible achievements in space, including the launch of Sputnik, the launch of Explorer I, and eventually, the landing of Apollo 11 on the moon, where Neil Armstrong took those famous first steps. Middle school students will meet some of the tens of thousands of engineers and scientists that worked for years to create the technology needed to send humans to the moon and return them safely to Earth. By showing space events against the backdrop of the turmoil back on Earth, readers understand that scientific achievement doesn't happen in a vacuum, even when it happens in space! A wealth of links to primary sources makes this an interactive learning experience while science-minded STEAM activities link the historical and scientific material. Throughout the fun facts, cool photos, and investigative projects, kids are encouraged to explore creative and critical thinking and problem-solving strategies.

What are the forces behind ballistics? Why do rocks and rockets soar through the air in an arch? The game is on the line. Suddenly, you hear the crack of a bat and the roar of crowd. Where will the ball land? How far will it travel? Is it a home run? You might think that hitting a home run or nailing a three-pointer is just luck, but there are many forces at work that determine if you’ve made a game-winning shot or the final out. If you’ve ever kicked a ball, thrown a rock, or even played Angry Birds, you’ve experimented with the forces behind ballistics. In Projectile Science: The Physics Behind Kicking a Field Goal and Launching a Rocket with Science Activities for Kids,one of four titles in the Technology for Today set, kids ages 10 to 15 learn why projectiles follow the paths they do and what factors influence those paths. Readers who are fascinated with potato cannons, slingshots, and rocketry will love taking that next step and applying what they learn about the laws of physics to the science of figuring out where to aim. Math is the language you use to understand the science of ballistics. In this book, readers will learn about the forces that act on the projectiles and how to calculate those forces to make educated predictions about where their homemade rockets and other projectiles will land. 25 Safe, hands-on STEAM activities using materials that are easy to acquire are a terrific way to foster real-life learning about ballistics. Kids will perform Galileo's famous test for gravity, create clinometers to measure height and distance, and build a machine that can throw curve balls. Essential questions that promote critical examination of the science, primary sources, online videos, and science-minded engineering activities let readers have a blast learning about the physics of ballistics! In the Technology for Today set, readers ages 10 to 15 explore the digital and tech landscapes of today and tomorrow through hands-on STEAM activities and compelling stories of how things work, who makes them work, and why. Titles in this set include Industrial Design: Why Smartphones Aren’t Round and Other Mysteries with Science Activities for Kids; Big Data: Information in the Digital World with Science Activities for Kids; Projectile Science: The Physics Behind Kicking a Field Goal and Launching a Rocket with Science Activities for Kids; and Artificial Intelligence: Thinking Machines and Smart Robots with Science Activities for Kids. Nomad Press books integrate content with participation. Common Core State Standards, the Next Generation Science Standards, and STEM Education all place project-based learning as key building blocks in education. Combining content with inquiry-based projects stimulates learning and makes it active and alive. Nomad’s unique approach simultaneously grounds kids in factual knowledge while allowing them the space to be curious, creative, and critical thinkers.

What are the forces behind ballistics? Why do rocks and rockets soar through the air in an arch?The game is on the line. Suddenly, you hear the crack of a bat and the roar of crowd. Where will the ball land? How far will it travel? Is it a home run?You might think that hitting a home run or nailing a three-pointer is just luck, but there are many forces at work that determine if you’ve made a game-winning shot or the final out. If you’ve ever kicked a ball, thrown a rock, or even played Angry Birds, you’ve experimented with the forces behind ballistics.In Projectile Science: The Physics Behind Kicking a Field Goal and Launching a Rocket with Science Activities for Kids, kids ages 10 to 15 learn why projectiles follow the paths they do and what factors influence those paths. Readers who are fascinated with potato cannons, slingshots, and rocketry will love taking that next step and applying what they learn about the laws of physics to the science of figuring out where to aim.Math is the language you use to understand the science of ballistics. In this book, readers will learn about the forces that act on the projectiles and how to calculate those forces to make educated predictions about where their homemade rockets and other projectiles will land. Safe, hands-on STEM activities using materials that are easy to acquire are a terrific way to foster real-life learning about ballistics. Kids will perform Galileo's famous test for gravity, create clinometers to measure height and distance, and build a machine that can throw curve balls.Essential questions that promote critical examination of the science, primary sources, online videos, and science-minded engineering activities let readers have a blast learning about the physics of ballistics!

What do you see when you look up into the sky at night? The moon, stars, maybe even a comet or asteroid? You can also see other planets! In Planetary Science: Explore New Frontiers, readers ages 12 to 15 embark on a journey through the solar system and beyond, exploring planets, moons, dwarf planets, exoplanets and everything in-between. For many ancient cultures, planets were mysterious objects that moved against the backdrop of the heavens in strange but predictable patterns. Ever since Galileo Galilee first used a telescope to explore the moons of Jupiter, we’ve known that the planets are much more than mysterious points of light in the night sky. With the creation of incredible technologies such as space probes, giant ground-based telescopes, and Earth-orbiting observatories, we’ve learned that Mars once had water on its surface, that Jupiter’s Great Red Spot has been churning for centuries, and that thousands of exoplanets circle distant suns. Planetary science is also exciting because of what we don’t know. Was there ever life on Mars? Is Planet Nine lurking in the outer reaches of the solar system? Will we ever find another Earth? How far can we go? In Planetary Science, readers examine the latest information on Pluto, the discoveries of the Mars rover Curiosity, and the incredible catalog of distant planets uncovered by the Kepler Space Telescope. They learn about how planets are formed and why they travel on their orbits. Planets, those pinpricks of light you might spot on a clear night, come closer through informative illustrations, links to online primary sources, illuminating sidebars and fun facts, and hands-on, in-depth activities, such as building scale models of planets, hunting for alien worlds through citizen science, and crafting a comet in the kitchen. Planetary Science also promotes critical thinking skills through inquiry, discovery, and research by encouraging readers to explore questions that remain unanswered, such as whether Mars once had life or the possibility of a ninth planet hiding in the furthest reaches of the solar system. With discoveries being made almost every day, it’s an exciting time to be a planetary scientist!

Early science fiction imagined a world with space travel, video calls, and worldwide access to information, things we now know as NASA's human spaceflight program, Skype, and the Internet. What next? Could we really bring back the dinosaurs, travel to a distant star, or live on Mars?In The Science of Science Fiction, readers ages 12 to 15 explore the science behind classic and modern science fiction stories, including artificial intelligence, androids, and the search for alien life. They learn how cutting edge concepts, including time dilation and genetic manipulation, influence today's fiction.The Science of Science Fiction promotes critical thinking skills through inquiry, discovery, research, analysis, and reflection of key scientific ideas and concepts made popular by many titles in science fiction. Each chapter features informative sidebars and video and website links for an in-depth look at key topics. Science-minded experiments include a simple demonstration of artificial gravity using a bucket of water and calculating the speed of light using chocolate in a microwave. This variety of resources ensures the material is accessible to students with diverse learning styles.

What do you see when you look up into the sky at night? The moon, stars, maybe even a comet or asteroid? You can also see other planets! In Planetary Science: Explore New Frontiers, readers ages 12 to 15 embark on a journey through the solar system and beyond, exploring planets, moons, dwarf planets, exoplanets and everything in-between. For many ancient cultures, planets were mysterious objects that moved against the backdrop of the heavens in strange but predictable patterns. Ever since Galileo Galilee first used a telescope to explore the moons of Jupiter, we’ve known that the planets are much more than mysterious points of light in the night sky. With the creation of incredible technologies such as space probes, giant ground-based telescopes, and Earth-orbiting observatories, we’ve learned that Mars once had water on its surface, that Jupiter’s Great Red Spot has been churning for centuries, and that thousands of exoplanets circle distant suns. Planetary science is also exciting because of what we don’t know. Was there ever life on Mars? Is Planet Nine lurking in the outer reaches of the solar system? Will we ever find another Earth? How far can we go? In Planetary Science, readers examine the latest information on Pluto, the discoveries of the Mars rover Curiosity, and the incredible catalog of distant planets uncovered by the Kepler Space Telescope. They learn about how planets are formed and why they travel on their orbits. Planets, those pinpricks of light you might spot on a clear night, come closer through informative illustrations, links to online primary sources, illuminating sidebars and fun facts, and hands-on, in-depth activities, such as building scale models of planets, hunting for alien worlds through citizen science, and crafting a comet in the kitchen. Planetary Science also promotes critical thinking skills through inquiry, discovery, and research by encouraging readers to explore questions that remain unanswered, such as whether Mars once had life or the possibility of a ninth planet hiding in the furthest reaches of the solar system. With discoveries being made almost every day, it’s an exciting time to be a planetary scientist!

On July 20th, 1969, Neil Armstrong landed gently on the lunar surface and became the first person to set foot on another world. People around the world stopped what they were doing to crowd around television sets and radios to witness one of the greatest achievements in human history--a man walking on the moon. How did we get there? Why haven't we gone back?In The Space Race: How the Cold War Put Humans on the Moon, kids ages 12 to 15 explore the race to the moon against the chilling backdrop of the Cold War. The Space Race was the period during and after the Cold War when America and the Soviet Union participated in a fierce competition to see which country could beat the other into space. It was a time of bitterness, fear, and secrecy, but it was also a moment in history when two countries directed resources toward pushing themselves to reach goals that were once thought unattainable. Would we have succeeded as far as we did without the competition to be first?While Neil Armstrong will be remembered as the first person to set foot on the moon, the people and events behind this accomplishment populate a fascinating tale of politics, science, technology, and teamwork that resulted in what might be the greatest accomplishment of the twentieth century. In The Space Race, middle school students explore this history of science and discover the political, social, and economic factors that led to incredible achievements in space, including the launch of Sputnik, the launch of Explorer I, and eventually, the landing of Apollo 11 on the moon, where Neil Armstrong took those famous first steps. Middle school students will meet some of the tens of thousands of engineers and scientists that worked for years to create the technology needed to send humans to the moon and return them safely to Earth.By showing space events against the backdrop of the turmoil back on Earth, readers understand that scientific achievement doesn't happen in a vacuum, even when it happens in space! A wealth of links to primary sources makes this an interactive learning experience while science-minded STEAM activities link the historical and scientific material. Throughout the fun facts, cool photos, and investigative projects, kids are encouraged to explore creative and critical thinking and problem-solving strategies.

Early science fiction imagined a world with space travel, video calls, and worldwide access to information, things we now know as NASA’s human spaceflight program, Skype, and the Internet. What next? Could we really bring back the dinosaurs, travel to a distant star, or live on Mars?In The Science of Science Fiction, readers ages 12 to 15 explore the science behind classic and modern science fiction stories, including artificial intelligence, androids, and the search for alien life. They learn how cutting edge concepts, including time dilation and genetic manipulation, influence today’s fiction.The Science of Science Fiction promotes critical thinking skills through inquiry, discovery, research, analysis, and reflection of key scientific ideas and concepts made popular by many titles in science fiction. Each chapter features informative sidebars and video and website links for an in-depth look at key topics. Science-minded experiments include a simple demonstration of artificial gravity using a bucket of water and calculating the speed of light using chocolate in a microwave. This variety of resources ensures the material is accessible to students with diverse learning styles.

On July 20th, 1969, Neil Armstrong landed gently on the lunar surface and became the first person to set foot on another world. People around the world stopped what they were doing to crowd around television sets and radios to witness one of the greatest achievements in human history--a man walking on the moon. How did we get there? Why haven't we gone back? In The Space Race: How the Cold War Put Humans on the Moon, kids ages 12 to 15 explore the race to the moon against the chilling backdrop of the Cold War. The Space Race was the period during and after the Cold War when America and the Soviet Union participated in a fierce competition to see which country could beat the other into space. It was a time of bitterness, fear, and secrecy, but it was also a moment in history when two countries directed resources toward pushing themselves to reach goals that were once thought unattainable. Would we have succeeded as far as we did without the competition to be first? While Neil Armstrong will be remembered as the first person to set foot on the moon, the people and events behind this accomplishment populate a fascinating tale of politics, science, technology, and teamwork that resulted in what might be the greatest accomplishment of the twentieth century. In The Space Race, middle school students explore this history of science and discover the political, social, and economic factors that led to incredible achievements in space, including the launch of Sputnik, the launch of Explorer I, and eventually, the landing of Apollo 11 on the moon, where Neil Armstrong took those famous first steps. Middle school students will meet some of the tens of thousands of engineers and scientists that worked for years to create the technology needed to send humans to the moon and return them safely to Earth. By showing space events against the backdrop of the turmoil back on Earth, readers understand that scientific achievement doesn't happen in a vacuum, even when it happens in space! A wealth of links to primary sources makes this an interactive learning experience while science-minded STEAM activities link the historical and scientific material. Throughout the fun facts, cool photos, and investigative projects, kids are encouraged to explore creative and critical thinking and problem-solving strategies.

Early science fiction imagined a world with space travel, video calls, and worldwide access to information, things we now know as NASA’s human spaceflight program, Skype, and the Internet. What next? Could we really bring back the dinosaurs, travel to a distant star, or live on Mars?In The Science of Science Fiction, readers ages 12 to 15 explore the science behind classic and modern science fiction stories, including artificial intelligence, androids, and the search for alien life. They learn how cutting edge concepts, including time dilation and genetic manipulation, influence today’s fiction.The Science of Science Fiction promotes critical thinking skills through inquiry, discovery, research, analysis, and reflection of key scientific ideas and concepts made popular by many titles in science fiction. Each chapter features informative sidebars and video and website links for an in-depth look at key topics. Science-minded experiments include a simple demonstration of artificial gravity using a bucket of water and calculating the speed of light using chocolate in a microwave. This variety of resources ensures the material is accessible to students with diverse learning styles.