Author : Jillayne Prince Wallaker
Publisher : Ideal School Supply
Page : 68 pages
File Size : 30,44 MB
Release : 1996
Category : Juvenile Nonfiction
ISBN : 9781564511683
Helps students build mathematical concepts and understandings through hands-on activities with concrete models and tools.
Author : G. D. Chakerian
Publisher :
Page : 0 pages
File Size : 13,81 MB
Release : 1998
Category : Geometry
ISBN : 9780895824301
Author : Susan Mayclin Stephenson
Publisher :
Page : 172 pages
File Size : 43,78 MB
Release : 2013-02
Category : International education
ISBN : 9781879264243
Stephenson's volume is a wonderful resource for parents seeking thoughtful, sound advice on raising well-grounded children in a chaotic world. Presenting Montessori principles in clear and eloquent prose, Stephenson's legacy will be a tremendous service to generations of parents to come. -Angeline Lillard, PhD, Professor of Psychology, U. of Virginia, author of Montessori, The Science behind the Genius
Author : Jo-Anne Lake
Publisher : Pembroke Publishers Limited
Page : 130 pages
File Size : 42,64 MB
Release : 2009
Category : Education
ISBN : 155138227X
Explores ways to teach math principles using children`s books, shows how to connect children with real-world math, and encourages linking text with relevant manipulatives in a hands-on, minds-on, problem-solving environment. Book lists, suggested activities, assessment strategies. and reproducible graphic organizers are included. Primary level.
Author : Amy Shell-Gellasch
Publisher : MAA
Page : 191 pages
File Size : 20,96 MB
Release : 2007
Category : Education
ISBN : 0883851822
In an increasingly electronic society, these exercises are designed to help school and collegiate educators use historical devices of mathematics to balance the digital side of mathematics.
Author : Alison Abrohms
Publisher : Scholastic Inc.
Page : 132 pages
File Size : 16,17 MB
Release : 1995-06
Category : Education
ISBN : 9780590492386
Author : Gila Hanna
Publisher : Springer Nature
Page : 374 pages
File Size : 18,96 MB
Release : 2019-10-02
Category : Education
ISBN : 3030284832
This book presents chapters exploring the most recent developments in the role of technology in proving. The full range of topics related to this theme are explored, including computer proving, digital collaboration among mathematicians, mathematics teaching in schools and universities, and the use of the internet as a site of proof learning. Proving is sometimes thought to be the aspect of mathematical activity most resistant to the influence of technological change. While computational methods are well known to have a huge importance in applied mathematics, there is a perception that mathematicians seeking to derive new mathematical results are unaffected by the digital era. The reality is quite different. Digital technologies have transformed how mathematicians work together, how proof is taught in schools and universities, and even the nature of proof itself. Checking billions of cases in extremely large but finite sets, impossible a few decades ago, has now become a standard method of proof. Distributed proving, by teams of mathematicians working independently on sections of a problem, has become very much easier as digital communication facilitates the sharing and comparison of results. Proof assistants and dynamic proof environments have influenced the verification or refutation of conjectures, and ultimately how and why proof is taught in schools. And techniques from computer science for checking the validity of programs are being used to verify mathematical proofs. Chapters in this book include not only research reports and case studies, but also theoretical essays, reviews of the state of the art in selected areas, and historical studies. The authors are experts in the field.
Author : Gerard A. Venema
Publisher : American Mathematical Soc.
Page : 147 pages
File Size : 19,29 MB
Release : 2013-12-31
Category : Mathematics
ISBN : 0883857847
This book provides an inquiry-based introduction to advanced Euclidean geometry. It utilizes dynamic geometry software, specifically GeoGebra, to explore the statements and proofs of many of the most interesting theorems in the subject. Topics covered include triangle centers, inscribed, circumscribed, and escribed circles, medial and orthic triangles, the nine-point circle, duality, and the theorems of Ceva and Menelaus, as well as numerous applications of those theorems. The final chapter explores constructions in the Poincare disk model for hyperbolic geometry. The book can be used either as a computer laboratory manual to supplement an undergraduate course in geometry or as a stand-alone introduction to advanced topics in Euclidean geometry. The text consists almost entirely of exercises (with hints) that guide students as they discover the geometric relationships for themselves. First the ideas are explored at the computer and then those ideas are assembled into a proof of the result under investigation. The goals are for the reader to experience the joy of discovering geometric relationships, to develop a deeper understanding of geometry, and to encourage an appreciation for the beauty of Euclidean geometry.
Author :
Publisher : Kendall Hunt
Page : 424 pages
File Size : 14,87 MB
Release : 2003
Category : Arithmetic
ISBN : 9780787285173
A research based, NSF funded, K5 mathematics program integrating math, science and language arts. Includes a Spanish translantion of instuctional units.
Author : Tom M. Apostol
Publisher : American Mathematical Soc.
Page : 529 pages
File Size : 11,71 MB
Release : 2017-10-24
Category : Mathematics
ISBN : 1470443368
Calculus problems solved by elementary geometrical methods --- page 4 of cover.
