Physics Research and Technology Name:________________________________________________________________________________________ Address:______________________________________________________________________________________ _____________________________________________________________________________________________ Number of copies:_____ Payment enclosed:_____ Send Proforma Invoice:_____ Credit Card Number:______________________________ Expiration Date:_____(Mo)_____(Yr) Authorized Signature:_______________________________ (New York state residents please add appropriate sales tax) Nova Science Publishers, Inc. 400 Oser Avenue, Suite 1600, Hauppauge, N.Y. 11788-3619, USA Phone (631) 231-7269 * Fax (631) 231-8175 * E-mail: [email protected] www.novapublishers.com You can also email our Billing department at [email protected] and enter special20 in the subject line of the email. Thank you! 20% off Promotional Offer • Softcover: 978-1-61761-318-0 • e-book: 978-1-61324-053-3 • $59.00 • $47.00 publishers Tolga Yarman (Okan University, Istanbul, Turkey) T Q M F B E R G T R: M B U M A This book provides a new approach toward the end results of the General Theory of Relativity (GTR), based on the law conservation of energy, though in the broader sense of the concept of 'energy', thus embodying the mass and energy equivalence of the Special Theory of Relativity (STR). Thereby, the approach is solely based on the relativisitic law of conservaiton of energy (excluding the necessity of assuming the 'principle of equivalence' of the GTR). The basic theorem the author proves, says that if in a relativistic or non-relativistic quantum mechanical description, composed properly, the mass of the object at hand is multiplied by an arbitrary number, then the total energy of it, is multiplied by the same number, and its size is divided by this number,. This book presents data which concludes that the quantum mechanical invariance of the quantity energy x mass x size^2 - with respect to a mass change introduced in the original wave-like description of the object - is the fundamental basis of a universal matter architecture (UMA), and well insures the end results of the GTR.