37201Mechanics of materials : 6th edition
1. Introduction- concept of stress; 2. Stress and strain-Axial loading; 3. Torsion; 4. Pure bending; 5. Analysis and design of beams for bending; 6. Shearing stresses in Beams and Thin-walled members; 7. Transformations of stress and strain; 8. Principal stresses under a given loading; Deflection of Beams; 10. Columns; 11. Energy methods.
37202Mechanics of materials : 8th ed.
Mechanics of Materials provides a precise presentation of subjects illustrated with numerous engineering examples that students both understand and relate to theory and application. The tried and true methodology for presenting material gives students the best opportunity to succeed in this course. From the detailed examples, to the homework problems, to the carefully developed solutions manual, instructors and students can be confident the material is clearly explained and accurately represented.
37203Mechanics of Materials: 2nd ed.
Deals with the teaching of solid mechanics. This title provides a presentation of the subject illustrated with numerous engineering examples that students both understand and relate to theory and application.
37204Mechanics of materials: second edition
Contents: Introduction to Mechanics of materials, stress and strain; design, axial deformation, torsion, equilibrium of beams, stresses in beams, deflection of beams, transformation of stress and strain; mohr"s circle, pressure vessels; stresses due to combined loading, buckling of columns, energy methods, special topics related to design, .....
37205Mechanics of materials: Second edition
Contents: Introduction to Mechanics of materials, stress and strain; Design, axial deformation, torsion, equilibrium of beams, stresses in beams, deflection of beams, transformation of stress and strain; Mohr"s circle, pressure vessels; Stresses due to combined loading, buckling of columns, energy methods, special topics related to design...
37206Mechanics of skeletal and cardiac muscle
Chapter 1. Muscle: structural and functional mechanics; Chapter 2: The force-velocity relationship in skeletal muscle; Chapter 3: The electromyogram during static and dynamic exercise; Chapter 4:The dynamics of active human skeletal muscle in vivo; Chapter 5: Electrical stimulation of paralyzed muscle; Chapter 6: Diagnostic cardiac mechanics: Clinical application; Chapter 7: A perspective of ventricular wall stress analyses; Chapter 8: Left ventricular properties and performance assessment analyses; Chapter 9: Cardiac material mechanics.
37207Mechanics of solids
Including: Fundamental principle; Axial force, torque, bending moment, and shear force; Tension and compression; Stress and strain; Thin-walled shells; Analysis of stress and strain;...
37208Mechanisms in transcriptional regulation
Mechanisms in Transcriptional Regulation provides a concise discussion of the fundamental concepts in transcription and its regulation. Beginning with an overview of RNA polymerases and the general transcriptional machinery, this book goes on to cover the mechanisms of transcriptional activation, the histone code hypothesis, the epigenetic control of transcription, and combinatorial control in signaling and development. Mechanisms in Transcriptional Regulation contains many features designed to aid understanding. More than 80 figures crystallize and amplify the ideas presented in the text.
37209Mechanisms of clinical signs : 2nd ed.
This book explains the underlying mechanism and value of the clinical signs you are expected to know, and the conditions they indicate. Each chapter contains descriptions of clinical signs, a list of the conditions they are associated with (what conditions the signs indicate), an explanation of the mechanism and the ‘value’ of those signs (how reliable they are as an indication of a condition).
37210Mechanisms of contraction of the normal and failing heart : 2nd ed.
Starting with the phenomena of contraction at the chemical and cellular levels, the authors progress through contraction physiology of the ventricle and conclude with considerations of energetics of the heart in exercise and heart failure.