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Learn the science behind what makes hockey so great! Ever wonder why hockey players tape their sticks? Or why they freeze pucks before a game (they do, you know)? From how pucks slide, to why sticks break, and which angle will get the puck where you want it to go, Hockey Science is a fun exploration of the science behind the great sport of hockey. Join mad scientists Shar Levine and Leslie Johnstone, the creators of Scary Science and Snowy Science, as they go behind-the-scenes of our country's favourite sport with their usual sense of humour and wonder. Each page is full of fun experiments that budding hockey players can try on their own -- on or off the ice!
From the creators of Scary Science, another fascinatingly fun book of experiments -- this time with a focus on winter! Science is fun all year round -- and here's a book to prove it! This winter, kids, their parents and their teachers will be inspired to try these simple experiments inside, inspired by the freezing weather outside. Kids can learn to make their own ice cream, create an indoor avalanche and pick up an ice cube with just a piece of string. Also included are fun facts about icebergs, frost, "orange" snow and lots more cool winter science!
Replicate a chemical reaction similar to one Marie Curie used to purify radioactive elements! Distill perfume using a method created in ancient Mesopotamia by a woman named Tapputi! Aspiring chemists will discover these and more amazing role models and memorable experiments in Chemistry for Kids. This engaging guide offers a series of snapshots of 25 scientists famous for their work with chemistry, from ancient history through today. Each lab tells the story of a scientist along with some background about the importance of their work, and a description of where it is still being used or reflected in today’s world. A step-by-step illustrated experiment paired with each story offers kids a hands-on opportunity for exploring concepts the scientists pursued, or are working on today. Experiments range from very simple projects using materials you probably already have on hand, to more complicated ones that may require a few inexpensive items you can purchase online. Just a few of the incredible people and scientific concepts you'll explore: Galan b. 129 AD Make soap from soap base, oil and citrus peels. Modern application: medical disinfectants Joseph Priestly b. 1733 Carbonate a beverage using CO2 from yeast or baking soda and vinegar mixture. Modern application: soda fountains Alessandra Volta b. 1745 Make a battery using a series of lemons and use it to light a LED. Modern application: car battery Tu Youyou b. 1930 Extract compounds from plants. Modern application: pharmaceuticals and cosmetics People have been tinkering with chemistry for thousands of years. Whether out of curiosity or by necessity, Homo sapiens have long loved to play with fire: mixing and boiling concoctions to see what interesting, beautiful, and useful amalgamations they could create. Early humans ground pigments to create durable paint for cave walls, and over the next 70 thousand years or so as civilizations took hold around the globe, people learned to make better medicines and discovered how to extract, mix, and smelt metals for cooking vessels, weapons, and jewelry. Early chemists distilled perfume, made soap, and perfected natural inks and dyes. Modern chemistry was born around 250 years ago, when measurement, mathematics, and the scientific method were officially applied to experimentation. In 1896, after the first draft of the periodic table was published, scientists rushed to fill in the blanks. The elemental discoveries that followed gave scientists the tools to visualize the building blocks of matter for the first time in history, and they proceeded to deconstruct the atom. Since then, discovery has accelerated at an unprecedented rate. At times, modern chemistry and its creations have caused heartbreaking, unthinkable harm, but more often than not, it makes our lives better. With this fascinating, hands-on exploration of the history of chemistry, inspire the next generation of great scientists.
Find out everything there is to know about hockey in this bestselling volume, redesigned, revised and updated! Who are the "Original Six"? How many cities have had their hockey team move . . . only to get a team later on? What are some of the most historic hockey games? How does the salary cap work, anyway? This book looks to answer all those questions and more, equipping the hockey fan with everything they need to know about hockey. From the beginning of the game to the billion dollar industry that it is today, fans will learn the A to Z of hockey. This updated edition includes updates statistics and records, new content about careers in hockey, the latest on equipment, expanded information on women's hockey PLUS twice as many photographs!
Why does a knuckleball flutter? Why do belly flops hurt so much? Why would a quarterback prefer a deflated football? Here are 54 all-star experiments that demonstrate the scientific principles powering a wide variety of sports and activities—and offer insights that can help you improve your own athletic skills. How does a black belt karate chop her way through a stack of bricks? Use Popsicle sticks to understand why it’s possible and learn the role played by Newton’s second law of motion. Does LeBron James really float through the air on the way to a dunk? Use a tennis ball, a paperback book, and the help of a friend to understand the science of momentum and the real meaning of hang time. Using common household objects, each project includes step-by-step instructions, tips, and a detailed explanation of how and why the experiment worked. It’s a win-win. The thrill of victory, the agony of defeat—it’s all in the science.
Four modules explore topics in physical science, earth and space science, life science, and science and technology with hands-on activities designed to engage students in the processes of scientific inquiry and technological design. Modules within a developmental level may be taught in any sequence.
With more than 3 million fans, TheDadLab has quickly become an online sensation by creating a solution for parents when they hear the dreaded 'I'm bored' complaint, and now, for the first time, Sergei Urban has transferred his most popular experiments to print in this beautifully illustrated and mind-blowing book! Using everyday ingredients that you can find in your kitchen cupboard, Sergei shows experiments that are not only fun for children, but fun for adults too! With 40 wonderful activities, including 15-never-before-posted, TheDadLab includes additional information not found on his online posts: each activity will feature a detailed explanation simplifying the information that stems from the fields of Science, Technology, engineering, and Mathematics (STEM) for a parent to help explain their curious child and answer the questions 'how' and 'why.'
Developed from celebrated Harvard statistics lectures, Introduction to Probability provides essential language and tools for understanding statistics, randomness, and uncertainty. The book explores a wide variety of applications and examples, ranging from coincidences and paradoxes to Google PageRank and Markov chain Monte Carlo (MCMC). Additional application areas explored include genetics, medicine, computer science, and information theory. The print book version includes a code that provides free access to an eBook version. The authors present the material in an accessible style and motivate concepts using real-world examples. Throughout, they use stories to uncover connections between the fundamental distributions in statistics and conditioning to reduce complicated problems to manageable pieces. The book includes many intuitive explanations, diagrams, and practice problems. Each chapter ends with a section showing how to perform relevant simulations and calculations in R, a free statistical software environment.
Sharon Robinson, the daughter of baseball legend Jackie Robinson, has crafted a hearwarming, true story about growing up with her father. When Jackie Robinson retires from baseball and moves his family to Connecticut, the beautiful lake on their property is the center of everyone's fun. The neighborhood children join the Robinson kids for swimming and boating. But oddly, Jackie never goes near the water. In a dramatic episode that first winter, the children beg to go ice skating on the lake. Jackie says they can go--but only after he tests the ice to make sure it's safe. The children prod and push to get Jackie outside, until hesitantly, he finally goes. Like a blind man with a stick, (contd.)
An encyclopedia designed especially to meet the needs of elementary, junior high, and senior high school students.