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"The Building Maths Fitness series consists of two books providing maths support for 40 weeks. Each book contains 100 maths cards, divided into 5-day groups to use every day for 20 weeks. Aimed at 10- to 12-year old students"--Introduction.
How mathematics helped build the world's most important buildings from early Egypt to the present From the pyramids and the Parthenon to the Sydney Opera House and the Bilbao Guggenheim, this book takes readers on an eye-opening tour of the mathematics behind some of the world's most spectacular buildings. Beautifully illustrated, the book explores the milestones in elementary mathematics that enliven the understanding of these buildings and combines this with an in-depth look at their aesthetics, history, and structure. Whether using trigonometry and vectors to explain why Gothic arches are structurally superior to Roman arches, or showing how simple ruler and compass constructions can produce sophisticated architectural details, Alexander Hahn describes the points at which elementary mathematics and architecture intersect. Beginning in prehistoric times, Hahn proceeds to guide readers through the Greek, Roman, Islamic, Romanesque, Gothic, Renaissance, and modern styles. He explores the unique features of the Pantheon, the Hagia Sophia, the Great Mosque of Cordoba, the Duomo in Florence, Palladio's villas, and Saint Peter's Basilica, as well as the U.S. Capitol Building. Hahn celebrates the forms and structures of architecture made possible by mathematical achievements from Greek geometry, the Hindu-Arabic number system, two- and three-dimensional coordinate geometry, and calculus. Along the way, Hahn introduces groundbreaking architects, including Brunelleschi, Alberti, da Vinci, Bramante, Michelangelo, della Porta, Wren, Gaudí, Saarinen, Utzon, and Gehry. Rich in detail, this book takes readers on an expedition around the globe, providing a deeper understanding of the mathematical forces at play in the world's most elegant buildings.
"Kids love to move. But how do we harness all that kinetic energy effectively for math learning? In Math on the Move, Malke Rosenfeld shows how pairing math concepts and whole body movement creates opportunities for students to make sense of math in entirely new ways. Malke shares her experience creating dynamic learning environments by: exploring the use of the body as a thinking tool, highlighting mathematical ideas that are usefully explored with a moving body, providing a range of entry points for learning to facilitate a moving math classroom. ..."--Publisher description.
Building Powerful Numeracy for Middle and High School Students brought the world of research on numeracy at the elementary level to the secondary level, helping teachers build numeracy in their students and showing how that work supports students in understanding higher math. Now, Pam Harris continues her work by offering lessons and activities that promote her strategies for teaching as much mathematics as possible with as little memorization as possible. Two types of activities for building numeracy are included in this workbook: Student Workouts include reproducible worksheets that students can work on independently or in pairs, followed by robust class discussion to promote understanding of the ideas. Teacher Directed Activities are whole-class mini-lessons designed to help students construct numerical relationships as they work with the teacher. While the student workouts provide starting points for students to build important numerical relationships and choose effective strategies, the teacher directed activities provide opportunities for discussing, comparing, modeling, verbalizing strategies, finding and describing patterns, and making generalizations. Together they help develop the mathematical habits of mind that students need for higher math.
Train Like a Superhero "I recommend this book to all personal trainers, training geeks, and people who just want to learn about different training methods and philosophies.” ―JC Santana, author of Functional Training #1 Best Seller in Physical Education and Coaching Body and Brain Training Designed to Unlock Your Amazing Hidden Potential Change your life. Many of us have forgotten how to move correctly. We live with muscular imbalances, constant pain, and low energy. Adam Sinicki is on a mission to change this. He is best known for his YouTube channel “The Bioneer”, where he provides expertise on functional training, brain training, productivity, flow states, and more. Be better than just functional. Currently, functional training is exercise as rehabilitation. It aims to restore normal, healthy strength and mobility using compound and multi-faceted movements. In Functional Training and Beyond, Adam reveals how to become “better than just functional.” We can improve our physical performance and our mental state. We can train to move better, think more clearly, feel energetic, and live more efficiently. Advanced way to train. Until now working out has had one of two goals─get bigger or get leaner. But why are those the only goals? What if there was a third, practical, healthy and exciting way to train our body and our mind? Learn how we can train our brains just like our bodies, and how to incorporate this into a comprehensive, well-rounded program. Discover: New ways to train body and mind Training for greater mobility, less pain, improved mood, and increased energy The fun of training with kettlebells, calisthenics, clubbells, street workouts, animal moves, handstands, rope climbs, isometrics, and more Fans of Overcoming Gravity, You Are Your Own Gym, The World’s Fittest Book, New Functional Training for Sports, or Calisthenics for Beginners―discover a new and better way to train both your body and mind in Functional Training and Beyond!
As secondary math teachers, we're often frustrated by the lack of true number sense in our students. Solid research at the elementary level shows how to help all students become mathematically proficient by redefining what it means to compute with number sense. Pam Harris has spent the past ten years scrutinizing the research and using the resulting reform materials with teachers and students, seeing what works and what doesn't work, always with an eye to success in higher math. This book brings these insights to the secondary world, with an emphasis on one powerful goal: building numeracy.--Page [4] of cover
Math in Society is a survey of contemporary mathematical topics, appropriate for a college-level topics course for liberal arts major, or as a general quantitative reasoning course.This book is an open textbook; it can be read free online at http://www.opentextbookstore.com/mathinsociety/. Editable versions of the chapters are available as well.
This new edition is a compilation of the authors work in movement- based learning. It demonstrates how physical movement relates to the mastery of cognitive skills and can enhance learning.
Buildings are increasingly ‘dynamic’: equipped with sensors, actuators and controllers, they ‘self-adjust’ in response to changes in the external and internal environments and patterns of use. Building Dynamics asks how this change manifests itself and what it means for architecture as buildings weather, programs change, envelopes adapt, interiors are reconfigured, systems replaced. Contributors including Chuck Hoberman, Robert Kronenburg, David Leatherbarrow, Kas Oosterhuis, Enric Ruiz-Geli, and many others explore the changes buildings undergo – and the scale and speed at which these occur – examining which changes are necessary, useful, desirable, and possible. The first book to offer a coherent, comprehensive approach to this topic, it draws together arguments previously only available in scattered form. Featuring the latest technologies and design approaches used in contemporary practice, the editors provide numerous examples of cutting-edge work from leading designers and engineering firms working today. An essential text for students taking design studio classes or courses in theory or technology at any level, as well as professionals interested in the latest mechatronic technologies and design techniques.
A new title in the Architectural Design series that explores the potential of computational mathematics in cutting-edge design Mathematics has always been a vital tool in the architect's trade, but the last fifteen years have seen a sharp rise in the power of computers and has led to computational abilities far beyond anything previously available. Modern design software and computing power have changed the traditional role of geometry in architecture and opened up new possibilities enabled by topology, non-Euclidean geometry, and other areas of mathematics. With insight from a top-notch list of contributors, including such notables as Philippe Morel and Fabien Scheurer, Mathematics in Space discusses how the advent of computation and information technology has affected the work of contemporary architects. This new title in the Architectural Design series updates architectural mathematics since the digital revolution With world-class contributors, this is an essential resource for anyone interested in the ways computation has transformed the discipline The book explores fascinating issues in modern design, most importantly the impact of mathematics on contemporary design creativity For students and practitioners alike, Mathematics in Space covers vital topics in a constantly changing discipline.