There are several good mechanical engineering data books on the market but these tend to be very bulky and
expensive, and are usually only available in libraries as reference books.
The Mechnical Engineer’s Data Handbook has been compiled with the express intention of providing a
compact but comprehensive source of information of particular value to the engineer whether in the design office,
drawing office, research and development department or on site.
(BQ) Part 1 book "Elsevier's integrated review genetics" presents the following contents: Basic mechanisms, chromosomes in the cell, mechanisms of inheritance, genetics of metabolic disorders, cancer genetics, hematologic genetics and disorders.
Tuyển tập các báo cáo nghiên cứu về y học được đăng trên tạp chí y học quốc tế cung cấp cho các bạn kiến thức về ngành y đề tài: Networked Research buffering: a basic mechanism for distributed robustness in complex adaptive systems...
I was delighted when Butterworth-Heinemann asked me to
edit a new edition of Mechanical Engineer’s Reference Book.
Upon looking at its predecessor, it was clear that it had served
the community well, but a major update was required. The
book clearly needed to take account of modern methods and
The philosophy behind the book is that it will provide a
qualified engineer with sufficient information so that he or she
can identify the basic principles of a subject and be directed to
further reading if required.
The purpose of this text is to provide the basis for an upper-level undergraduate
or graduate course over one or two semesters, covering basic concepts and
examples of fluid mechanics with particular applications in the natural environment.
The book is designed to meet a dual purpose, providing an advanced
fundamental background in the fluid mechanics of environmental systems and
also applying fluid mechanics principles to a variety of environmental issues.
Central to this book are two ideas. The first is that Fluid Mechanics is relevant to a
wide variety of problems that are priorities in the early 21st
century, three of which are
health, the environment, and energy. The second idea is that researchers in this field
are applying novel methods to address these problems. Even on its most basic level,
Fluid Mechanics is challenging.
n view of the growing importance of product liability and the demand for fulfillment of extreme specifications for new products, this book provides the basic tools for establishing model equations in structural mechanics. Additionally, it illustrates the transition and interrelation between structural mechanics and structural optimization. Nowadays, this new direction is extremely important for more efficiency in the design process. The book is divided into four parts covering the fundamentals of elasticity, plane and curved load-bearing structures and structural optimization.
Communication happens in the form of signals.
Signals are transmission of energy (mechanical, electrical or light) through appropriate
A signal that is constant and changed once conveys single information.
The more changes in the signal, the more information that the signal can convey.
For example, a push can mean one thing and removing it can mean another thing.
The solutions as presented generally just provide a guidance to solving the problems, rather than step by step manipulation, and leave much to the students to work out for themselves, of whom much is demanded of the basic knowledge in physics. Thus the series would provide an invaluable complement to the textbooks. The present volume for Mechanics which consists of three parts Newtonian Mechanics, Analytical Mechanics, and Special Relativity contains 410 problems.
IT HAS BEEN SAID THAT SIR ISAAC NEWTON was the last person to know everything. He was an
accomplished physicist (his three laws of motion were the basis of classical mechanics, which defi ned
astrophysics for three centuries), mathematician (he was one of the inventors of calculus and
developed Newton’s Method for fi nding roots of equations), astronomer, natural philosopher,
and alchemist (okay, maybe the last one was a mistake). He invented the refl ecting telescope, a theory
of color, and a law of cooling, and he studied the speed of sound.
This text/reference is the only one of its kind to offer the basics on surface wave mechanics and coastal processes along with the fundamentals of coastal engineering analysis and design. It also provides the necessary background from which the reader can pursue a more advanced study of the various theoretical and applied aspects of coastal hydromechanics and coastal engineering design.
Rawson and Tupper's Basic Ship Theory, first published in 1968, is widely known as the standard introductory text for naval architecture students, as well as being a useful reference for the more experienced designer.
The fifth edition continues to provide a balance between theory and practice. Volume 2 expands on the material in Volume 1, covering the dynamics behaviour of marine vehicles, hydrodynamics, manoeuvrability and seakeeping. It concludes with some case studies of particular ship types and a discussion of maritime design.
KEY EQUATIONS AND CHARTS FOR DESIGNING MECHANISMS
FOUR-BAR LINKAGES AND TYPICAL INDUSTRIAL APPLICATIONS
All mechanisms can be broken down into equivalent four-bar linkages. They can be considered to be the basic mechanism and are useful in many mechanical operations.
FOUR-BAR LINKAGES—Two cranks, a connecting rod and a line between the fixed centers of the cranks make up the basic four-bar linkage. Cranks can rotate if A is smaller than B or C or D. Link motion can be predicted.
Regions and gates can be made to better separate and analyze populations of interest.
Furthermore, on the basis that the dyes used to stain cells have overlapping emission
spectra, the compensation is normally made to reduce interference.
While basic instruments may only permit the simultaneous collection of two or three
fluorescence signals, the more complex and expensive research instruments mean that it is
possible to obtain more than 14 parameters (Winson & Davey, 2000; Chattopadhyay et al.,
2008) depending on the laser equipment utilized.
Research and development in bioengineering and medical technology, conducted during
recent decades, have led to spectacular progress in clinical medicine. These
achievements have triggered an enormous increase in the number of courses offered in
the areas of bioengineering, clinical technology and medical informatics; nowadays,
most major universities offer curricula oriented towards these fields. The majority of
participants however come from engineering backgrounds and so modules dealing with
basic biological and medical sciences have been included.