Age range 9 to 14 Get ready to play (and learn!) with your food! Discover how electricity is made, learn about the inner workings of atoms and conduct experiments with making waves, and more. Become a Kitchen Scientist by grasping gases using a home-made hot air balloon, learning about light to recreate a rainbow and mastering momentum with model cars! The Physics of Popcorn uses applied science for a fun and interactive approach to learning for the whole family.
“[Czerski’s] quest to enhance humanity’s everyday scientific literacy is timely and imperative.”—Science Storm in a Teacup is Helen Czerski’s lively, entertaining, and richly informed introduction to the world of physics. Czerski provides the tools to alter the way we see everything around us by linking ordinary objects and occurrences, like popcorn popping, coffee stains, and fridge magnets, to big ideas like climate change, the energy crisis, or innovative medical testing. She provides answers to vexing questions: How do ducks keep their feet warm when walking on ice? Why does it take so long for ketchup to come out of a bottle? Why does milk, when added to tea, look like billowing storm clouds? In an engaging voice at once warm and witty, Czerski shares her stunning breadth of knowledge to lift the veil of familiarity from the ordinary.
Bear’s Halloween party gets overwhelmed by a delicious excess of popcorn in this classic picture book refreshed with new art by celebrated and award-winning author-illustrator Frank Asch. On Halloween night Sam invites all his friends to his house for a costume party. As his guests arrive, each one brings the same treat: popcorn! They make it all and soon the house is overflowing with popcorn. What will Sam and his friends do with so much of this tasty treat?
Junk food is so delicious. The tastes of candy bars and smells of movie popcorn are almost irresistible. But junk foods have a secret. It's not an accident that we enjoy them so much. Science plays a major role in making and packaging these foods. "Where's the Science Here?" reveals why junk food is more amazing than you ever imagined! "Cobb's deverly conceived new series, Where's the Science Here?, focuses on food chemistry, not nutrition.... Well-digested explanations and low-tech projects reinforce Cobb's reputation for snappy hands-on science writing for children."---Booklist
Can you really lose weight by consuming nothing but ice cream and beer? How does the latest blockbuster movie get squeezed onto a disk, and how do they make the pictures seem 3D? How much does a selfie weigh? What's the science behind forensic investigations, body scans, and the dating of ancient artefacts? The Physics Behind... takes the reader on a fascinating journey through the scientific principles that that make the modern world work. Could there be life on Mars? Why is north really south? How do self-driving cars find their way around? These and many more topics are explored by starting with the basic science that makes them tick - examining the physics behind them. Packed with detailed original artwork and infographics, The Physics Behind... is perfect for anyone who has ever been curious about the science of life. Including: - The physics behind modern life: Wi-Fi, Facial recognition, touchscreens, microwave ovens, the ice cream and beer diet, taking a selfie, Flash memory, a bag of sugar, catching the train, calendars and clocks - The physics behind entertainment: optical discs, lasers, white water, executive toys, the electric guitar, music, 3D movies - The physics behind analysis: medical imaging, looking at little things, spectroscopy, crime scene investigation, tricorder, microfluidics, radiocarbon dating, proving the Earth is round - The physics behind space: rocket science, space weather, Planet Nine, space telescopes, is there anybody out there? life on Earth, life on Mars - The physics behind big science: what's the matter?, time travel, bomb or meltdown?, the Large Hadron Collider, the Human Genome Project, the Standard Model, gravity, everything - The physics behind the weird universe: strings, rings and other things, N-dimensional space, the hypercube, antimatter, the dark universe, quantum weirdness, quantum biology, time crystals and Majorana - The physics behind the environment: weather forecasts, climate change, renewable energy, migration, peacock feathers, sunburn, rainbows, spider silk - The physics behind transportation: autonomous autos, Hyperloop, Maglev, satellite navigation, motor sport, going rreeaallllyy fast, stealth - The physics behind everything else: curve balls, the Mpemba Effect, why north is really south, perpetual motion and the heat death of the universe, and the physics behind this book.
Mesoscopic physics refers to the physics of structures larger than a nanometer (one billionth of a meter) but smaller than a micrometer (one millionth of a meter). This size range is the stage on which the exciting new research on submicroscopic and electronic and mechanical devices is being done. This research often crosses the boundary between physics and engineering, since engineering such tiny electronic components requires a firm grasp of quantum physics. Applications for the future may include such wonders as microscopic robot surgeons that travel through the blood stream to repair clogged arteries, submicroscopic actuators and builders, and supercomputers that fit on the head of a pin. The world of the future is being planned and built by physicists, engineers, and chemists working in the microscopic realm. This book can be used as the main text in a course on mesoscopic physics or as a supplementary text in electronic devices, semiconductor devices, and condensed matter physics courses. For this new edition, the author has substantially updated and modified the material especially of chapters 3: Dephasing, 8: Noise in mesoscopic systems, and the concluding chapter 9.
You could hardly blame Dexter, ordinarily a well-behaved young dragon, for showing off when he suddenly found that he could make clouds of smoke. The temptation is irresistible, but Dexter quickly becomes insufferable. First he watches his own reflection in the river in order to admire the smoke. Then he puffs it in the faces of his friends: the zebra, the giraffe, and the elephant. He even blows smoke rings around his own tail to prove how clever he is. Soon Dexter has no friends left. He is a very lonely dragon indeed, until quite by accident he discovers a way his talent can be used to win back his playmates. This wonderful story -- first published in 1953 -- will delight both young readers and their parents, and so will Lisa McCue's appealing new pictures of this lovable show-off.
How does a field of corn become a delicious bowl of popcorn? The story behind the fluffy snack the entire country loves is revealed in this photographic nonfiction picture book. Kids love food--and they especially love to eat popcorn! Author Cris Peterson offers an illuminating step-by-step examination of the history and science behind America's favorite snack. With photographs illustrating every stage, readers get a behind-the-scenes view of how popcorn is planted, grown, harvested, processed, tested, and finally shipped to stores and movie theaters all over the world. Back matter delves into the history of popcorn and how it became so popular in the United States.
A fun way to explore the three core elements of scientific learning: Discovery, Learning and Experiments.This new series explores the key principles and practice of everyday science by using analogies, experiments and research with food and drink in the home kitchen environment. Each title covers a branch of science and demonstrates its principles though applied science offering a unique, fun, and interactive approach to learning for both teenage and adult readers.