Biomedical Engineering Theory And Practice/Chapters Description

This page should be some sort of a detailed outline for the rest of the book. It should also focus on the best approach for reading this book. It should also be emphasized that the reading order is totally arbitrary and that each chapter is self-contained. Chapters are linking between each other especially to point out necessary tools.

Chapter # 1 Introduction
1.1 What is biomedical engineering?

1.2 A very brief history biomedical engineering.

1.3 The state of the art.: a broad look at things.

1.4 Opportunities for growth.

Chapter # 2 Biomedical Instrumentation:
2.1 The role of instrumentation in biomedical engineering.

2.2 a very swift review of basic electronics:

Charge, Current, Voltage, Power, Energy, Resistance

Kirchhoff ’s Law's, Resistors in Series and Parallel

Voltage and Current Divider Rules

Linear Network Analysis: Nodal Mesh etc

Thevenin’s and Norton’s Theorems

Inductors, Capacitors & Combinations

2.3 Bioinstrumentation specific stuff:

Amplifiers for Biopotential

Time Variant Signals & Phasors

Passive & Active Filters

instrumentation Design

Waveform Generators for testing

Signal analysis and software

Chapter # 6 Biomechanics:
6.1 A very brief review of basic mechanics:

Vectors and kinematics,Force and Motion, Kinetic and Potential Energy and Work, Conservation of Energy, Energy Absorption, Center of Mass and Linear & Angular Momentum, Rotation, Torque, and Elasticity,Axial Stress and Strain Shear Stress, Bending, Torsion,Failure Under Load,

6.2 Cellular Biomechanics

6.3 Mechanics of Hard &Soft Tissue Tissues

6.4.1 mechanics of the Musculoskeletal & digestive systems

6.4.2 Joint Surface & Lubrication

6.4.3 Analysis of Gait and movement

6.5 Mechanics of the cardiovascular,Lymphatic, andrespiratory systems

6.6 Mechanics of the inner ear