[المريدي]

General Physics for Medical Sciences Students
By Dr. Hasan Maridi
1st edition, 2017

كتاب الفيزياء العامة لطلاب الكليات الطبية
للدكتور حسن مريدي

لتحميل الكتاب اضغط الرابط
https://drive.google.com/open?id=0B4...XBYQllJRnpxaVE

References
1-Physics for Scientists and Engineers (with PhysicsNOW and InfoTrac), Raymond A. Serway - Emeritus, James Madison University , Thomson Brooks/Cole © 2004, 6th Edition, 1296 pages.
2- Power point slides of Serway book (Physics for Scientists and Engineers) from Cengage Learning Company (http://www.cengage.com).
3- Medical physics, John R .Cameron.
4- Medical Physics, Hazem Sakeek, 2014
5- Dr. Taima lectures in medical physics, University of Mosul
6- Lectures in General Physics1, Mechanics, HazeemSakeek, 2001

Contents
Chapter 1 Physics and Measurement
1.1 Standards of Length, Mass, and Time
1.2 Matter and Model Building
1.3 Dimensional Analysis
1.4 Conversion of Units
1.5 Medical Physics
Chapter 2 Vectors
2.1 Coordinate Systems
2.2 Vector and Scalar Quantities
2.3 Some Properties of Vectors
2.4 Components of a Vector and Unit Vectors
2.4 Scalar Product of Vectors
Chapter 3 The Force and Laws of Motion
3.1 The Concept of Force
3.2 Newton’s First Law
3.3 Mass
3.4 Newton’s Second Law
3.5 The Gravitational Force and Weight
3.6 Newton’s Third Law
3.7 Forces of Friction
3.8 Forces in and on the body
Chapter 4 Static Equilibrium and Elasticity
4.1 The Rigid Object in Equilibrium
4.2 More on the Center of Gravity
4.3 Examples of Rigid Objects in Static Equilibrium
4.4 Elastic Properties of Solids
4.5 Stress, Strain, and Elasticity Modulus
Chapter 5 Energy and its Conservation
5.1 Systems and Environments
5.2 Work Done by a Constant Force
5.3 Kinetic Energy and the Work–Kinetic Energy Theorem
5.4 Potential Energy of a System
5.5 Conservative and Nonconservative Forces
5.6 Energy Diagrams and Equilibrium of a System
5.7 The Isolated System
5.8 Power
5.9 Energy Changes in the body
5.10 Metabolic rate
5.11 Efficiency of the Human body
Chapter 6 Fluid Mechanics
6.1 Fluid Properties
6.2 Viscosity
6.3 Surface Tension, Capillary
6.4 Pressure, Variation of Pressure with Depth
6.5 Pressure Measurements
6.6 Measurement of blood pressure.
6.7 Buoyant Forces and Archimedes’s Principle
6.8 Fluid Dynamics
6.9 Bernoulli’s Equation and its Applications
6.10 Effect of gravitational forces on human body.
Chapter 7 Temperature and Thermodynamics
7.1 Temperature and the Zeroth Law of Thermodynamics
7.2 Thermometers and the Celsius Temperature Scale
7.3 The Absolute Temperature Scale
7.4 Thermal Expansion of Solids and Liquids
7.5 An Ideal Gas
7.6 Heat and Internal Energy
7.7 Specific Heat and Calorimetry
7.8 Work and Heat
7.9 The First Law of Thermodynamics
7.10 Energy Transfer Mechanisms
7.11 Heat losses from the body
Chapter 8 Sound Wave
8.1 Propagation of a Disturbance
8.2 The Traveling Wave Model
8.4 Sound Waves, Speed and Intensity of Sound Waves
8.5 Sound Level
8.6 The Doppler Effect
8.7 Shock Waves
8.8 Ultrasound and Medical Applications
8.9 A Scan, B Scan, M Scan
Chapter 9 Light and Image Formation Optics
9.1 The Nature of Light
9.2 The Ray Approximation
9.3 The Light Reflection
9.4 The Light Refraction
9.5 The Rainbow, Fiber Optics
9.6 Medical uses, Endoscope
9.7 Images Formed by Thin Lenses
9.8 Optical Instruments: The Simple Magnifier, The Compound Microscope
9.9 The Eye, Myopia, Hyperemia
Chapter 10 Electric Fields
10.1 Properties of Electric Charges
10.2 Coulomb’s Law
10.3 The Electric Field
10.4 Electric Potential and Potential Difference
10.5 Capacitance, Combinations of Capacitors, Capacitors with Dielectrics
10.6 Electric Current
10.7 Resistance, Resistance and Temperature, Resistors in Series and Parallel
10.8 Superconductors
10.9 Electric Power
10.10 Electrical Safety
10.11 Electricity Within the Body
10.12 Electromyography (EMG)
10.13 Electrocardiograph (ECG)
10.14 Electroencephalograph (EEG)
Chapter 11 Nuclear Physics and its Applications, Radioactivity
11.1 Some Properties of Nuclei
11.2 Nuclear Binding Energy
11.3 Radioactivity
11.4 The Decay Processes
11.5 Natural Radioactivity
11.6 Nuclear Reactions
11.7 Nuclear Magnetic Resonance and Magnetic Resonance Imaging
11.8 Nuclear Fission, Nuclear Reactors, Nuclear Fusion
11.9 Radiation Damage
11.10 Radiation Detectors
11.11 Uses of Radiation

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