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This book provides readers with an understanding of the basic physics and mathematics that governs our solar system. It explores the mechanics of our Sun and planets; their orbits, tides, eclipses and many other fascinating phenomena. This book is a valuable resource for undergraduate students studying astronomy and should be used in conjunction with other introductory astronomy textbooks in the field to provide additional learning opportunities. Features: Written in an engaging and approachable manner, with fully explained mathematics and physics concepts Suitable as a companion to all introductory astronomy textbooks Accessible to a general audience
Uses problem-solving strategies and elementary mathematics to explore the planets and moons in the solar system.
Learn About How Physics, Math, And Science Work Together To Help Us Understand Our Solar System And Beyond.
"From the phases of the moon seen on Earth to the rotation of far off galaxies, mathematics can be used to explain what's happening in the universe. Full-color photographs and related age-appropriate math questions engage young readers and give real world applications to mathematics."--
The solar system unfolds before your eyes in this cheeky, myth-busting book (grounded in real math)! Quick: Picture the solar system. Do you see nine planets on tidy rings around the Sun? Then you have been lied to! It’s not without reason: We have to draw the solar system that way to fit it on a place mat, or a lunch box, or into an ordinary book. But that familiar diagram is wrong about almost everything—and so this is no ordinary book. Seven double-gatefold pages open out not once but twice, capturing our planetary neighbors at scale. At a 100,000,000,000-to-1 scale, the Sun is about the size of a dime. And five feet away from the Sun, we find . . . Earth, the size of a pinhead. A hundred-billion-to-one scale is not nearly small enough to fit our solar system into a book (or onto a soccer field)! How small do we need to go? Unfold the next three spreads to find out . . .
Mathematics for the Environment shows how to employ simple mathematical tools, such as arithmetic, to uncover fundamental conflicts between the logic of human civilization and the logic of Nature. These tools can then be used to understand and effectively deal with economic, environmental, and social issues. With elementary mathematics, the book se
This book describes these issues in terms of links, between cosmology, particle and nuclear physics, as well as between cosmology, atmospheric and terrestrial physics. It studies the constituents of dark matter (classified as hot warm and cold) first in terms of their individual structures, and second, in terms of facilities available to detect these structures. Neutrinos are treated as a separate entity. The last chapter details the real-time stories about the "regions" that were not explored thus far, for lack of advanced technology. Their untold stories (which span up to 2010) are illustrated here datewise in full. The book concludes with the latest news that the Large Hadron Collider team at CERN has finally succeeded in producing 7 trillion electronic Volts of energy by creating head-on-collisions of protons and more protons (in search of God-particle).
Connect students in grades 5 and up with science using The Solar System. In this 80-page book, students explore the solar system through activities covering sky domes, a time zone finder, measuring the sun's location, eclipses, and scaling. The book includes historical perspectives, solar system concepts and facts, inquiry-based activities, challenge questions, extension activities, assessments, literature connections, curriculum resources, a bibliography, and materials lists. This book supports National Science Education Standards and NCTM standards.
Resnik expresses his commitment to a structuralist philosophy of mathematics and links this to a defence of realism about the metaphysics of mathematics - the view that mathematics is about things that really exist.
Max Tegmark leads us on an astonishing journey through past, present and future, and through the physics, astronomy and mathematics that are the foundation of his work, most particularly his hypothesis that our physical reality is a mathematical structure and his theory of the ultimate multiverse. In a dazzling combination of both popular and groundbreaking science, he not only helps us grasp his often mind-boggling theories, but he also shares with us some of the often surprising triumphs and disappointments that have shaped his life as a scientist. Fascinating from first to last—this is a book that has already prompted the attention and admiration of some of the most prominent scientists and mathematicians.