Install | <10 |
From 0 Rates | 0 |
Category | Education |
Size | 8 MB |
Last Update | 2023 September 20 |
Install | <10 |
From 0 Rates | 0 |
Category | Education |
Size | 8 MB |
Last Update | 2023 September 20 |
Bio medical engineering physics notes for bio medical engineering students.Bio medical engineering physics almost covers all important topics with their graphics chapter wise which are given below
Chapter 1 Bioelectricity
Theory of diffusion & permeability through biological membrane
Resting Membrane potential
Generation & transmission of impulses
Ionic channels
monophasic and biphasic recordings
Electrical activity of the heart Pace maker potential
Electrocardiography
Receptor potentials
Electrical activity of the brain
Huxley model of squid giant axon
Chapter 2 Elasticity of living cell materials
Elasticity of living cell materials
Elasticity and braking strength of bones
Muscle as a helical spring
Introduction of biomaterials
structure and properties of polymers
structure and properties of Ceramics
Tissue responses to implant
Cellular responses to foreign soft and hard tissues
uses of implants
Viscosity of Elemental protoplasm
Surface energies of living materials
Surface tension of Bio-Fluids and its measurement
Chapter 3 Radiation Biophysics-Radio Emission
Radio Emission
Law of radioactive decay half life period
Production of radioisotopes for medical use
Generation & sources of electromagnetic radiation
Interaction of radiation with matter and tissue
Useful and harmful effects of magnetic fields
Radio waves
Micro waves
Ultraviolet radiation and infrared red
Detection and measurements of radiation
Chapter 4 Fluid Biophysics System
Fluid Biophysics System
Fluid flow across the membrane
Fick's diffusion equation
Influence of tubewell
Radius of tube
Length of tube and R.B.C. concentration on blood flow
Total energy equation for blood
The heart as a pump
Chapter 5 Thermodynamics of living System
Living body as a thermodynamics system
Thermodynamic laws applied to bio-systems
Expressions for changes in internal energy
negative entropy change in living systems
Heat exchange, between a biological system & environment
Effect of hypothermia and hyperthermia
Production of ultra low and low temperature for medical use