Introduction to Biological Physics for the Health and Life Sciences
(Sprache: Englisch)
This book aims to demystify fundamental biophysics for students in the health and biosciences required to study physics and to understand the mechanistic behaviour of biosystems. The text is well supplemented by worked conceptual examples that will...
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Klappentext zu „Introduction to Biological Physics for the Health and Life Sciences “
This book aims to demystify fundamental biophysics for students in the health and biosciences required to study physics and to understand the mechanistic behaviour of biosystems. The text is well supplemented by worked conceptual examples that will constitute the main source for the students, while combining conceptual examples and practice problems with more quantitative examples and recent technological advances.
Inhaltsverzeichnis zu „Introduction to Biological Physics for the Health and Life Sciences “
I Mechanics.CHAPTER 1 Kinematics.
1.1 Introduction.
1.2 Distance and Displacement.
1.3 Speed and Velocity.
1.4 Acceleration.
1.5 Average Velocity or Speed.
1.6 The Acceleration Due to Gravity.
1.7 Independence of Motion in 2D.
1.8 Summary.
CHAPTER 2 Force and Newton's Laws of Motion.
2.1 Introduction.
2.2 The Concept of Force.
2.3 Kinds of Force.
2.4 Newtonian Gravity.
2.5 Summary.
CHAPTER 3 Motion in a Circle.
3.1 Introduction.
3.2 Description of Circular Motion.
3.3 Circular Velocity and Acceleration.
3.4 Centripetal Force.
3.5 Sources of Centripetal Force.
3.6 Summary.
CHAPTER 4 Statics.
4.1 Introduction.
4.2 Equilibrium.
4.3 Torque.
4.4 The Principle of Moments.
4.5 Centre of Gravity or Centre of Mass.
4.6 Stability.
4.7 Summary.
CHAPTER 5 Energy.
5.1 Introduction.
5.2 What is Energy?
5.3 Work.
5.4 Kinetic Energy.
5.5 Potential Energy.
5.6 Conservative Forces.
5.7 Conservation of Total Energy.
5.8 Power.
5.9 Summary.
CHAPTER 6 Momentum.
6.1 Introduction.
6.2 Linear Momentum.
6.3 Newton's Laws and Momentum.
6.4 Collisions.
6.5 Elastic Collisions.
6.6 Summary.
CHAPTER 7 Simple Harmonic Motion.
7.1 Introduction.
7.2 Hooke's Law.
7.3 Simple Harmonic Motion.
7.4 The Simple Pendulum.
7.5 Summary.
CHAPTER 8 Waves.
8.1 Introduction.
8.2 Simple Harmonic Motion &Waves.
8.3 Frequency, Wavelength, & Speed.
8.4 The Form of the Wave.
8.5 Types of Wave.
8.6 Superposition & Interference.
8.7 Beats.
8.8 Reflection.
8.9 Standing Waves.
8.10 Waves and Energy.
8.11 Complex Waveforms.
8.12 Summary.
CHAPTER 9 Sound and Hearing.
9.1 Introduction.
9.2 Sound Waves in Media.
9.3 Pitch and Loudness.
9.4 Resonance and Sound Generation.
9.5 The Ear.
9.6 The Doppler Effect.
9.7 Summary.
II BulkMaterials.
CHAPTER 10 Elasticity: Stress and Strain.
10.1
... mehr
Introduction.
10.2 Tension and Compression.
10.3 Shear Stress and Strain.
10.4 Bulk Stress and Strain.
10.5 Elasticity.
10.6 Summary.
CHAPTER 11 Pressure.
11.1 Introduction.
11.2 Pressure.
11.3 Density.
11.4 Pascal's Principle.
11.5 Measurement of Pressure.
11.6 Pressure and the Human Body.
11.7 Summary.
CHAPTER 12 Buoyancy.
12.1 Introduction.
12.2 The Buoyant Force.
12.3 Summary.
CHAPTER 13 Surface Tension and Capillarity.
13.1 Introduction.
13.2 Surface Tension.
13.3 Capillarity.
13.4 Surfactants and the Lung.
13.5 Summary.
CHAPTER 14 Fluid Dynamics of Non-viscous Fluids.
14.1 Introduction.
14.2 Definitions of Some Key Terms.
14.3 The Equation of Continuity.
14.4 Bernoulli's Equation.
14.5 Summary.
CHAPTER 15 Fluid Dynamics of Viscous Fluids.
15.1 Introduction.
15.2 Viscosity.
15.3 Turbulence.
15.4 Summary.
CHAPTER 16 Molecular Transport Phenomena.
16.1 Introduction.
16.2 Diffusion.
16.3 Osmosis.
16.4 Applications to Biological Systems.
16.5 Summary.
III Thermodynamics.
CHAPTER 17 Temperature and the Zeroth Law.
17.1 Introduction.
17.2 Thermal Equilibrium.
17.3 Measuring Temperature.
17.4 Thermal Expansion of Materials.
17.5 Summary.
CHAPTER 18 Ideal Gases.
18.1 Introduction.
18.2 The Gas Laws.
18.3 Biological Applications.
18.4 Kinetic Theory of Gases.
18.5 Summary.
CHAPTER 19 Phase and Temperature Change.
19.1 Introduction.
19.2 Phase Changes.
19.3 Temperature Changes.
19.4 Energy Conservation.
19.5 L and c Values for Water.
19.6 Summary.
CHAPTER 20 Water Vapour and the Atmosphere.
20.1 Introduction.
20.2 Mixtures of Water Vapour and Air.
20.3 Partial Pressure, Moisture Content.
20.4 Atmospheric Properties.
20.5 Psychrometry.
20.6 Applications.
20.7 Summary.
CHAPTER 21 Heat Transfer.
21.1 Introduction.
21.2 Conduction.
21.3 Convection.
21.4 Radiation.
21.5
10.2 Tension and Compression.
10.3 Shear Stress and Strain.
10.4 Bulk Stress and Strain.
10.5 Elasticity.
10.6 Summary.
CHAPTER 11 Pressure.
11.1 Introduction.
11.2 Pressure.
11.3 Density.
11.4 Pascal's Principle.
11.5 Measurement of Pressure.
11.6 Pressure and the Human Body.
11.7 Summary.
CHAPTER 12 Buoyancy.
12.1 Introduction.
12.2 The Buoyant Force.
12.3 Summary.
CHAPTER 13 Surface Tension and Capillarity.
13.1 Introduction.
13.2 Surface Tension.
13.3 Capillarity.
13.4 Surfactants and the Lung.
13.5 Summary.
CHAPTER 14 Fluid Dynamics of Non-viscous Fluids.
14.1 Introduction.
14.2 Definitions of Some Key Terms.
14.3 The Equation of Continuity.
14.4 Bernoulli's Equation.
14.5 Summary.
CHAPTER 15 Fluid Dynamics of Viscous Fluids.
15.1 Introduction.
15.2 Viscosity.
15.3 Turbulence.
15.4 Summary.
CHAPTER 16 Molecular Transport Phenomena.
16.1 Introduction.
16.2 Diffusion.
16.3 Osmosis.
16.4 Applications to Biological Systems.
16.5 Summary.
III Thermodynamics.
CHAPTER 17 Temperature and the Zeroth Law.
17.1 Introduction.
17.2 Thermal Equilibrium.
17.3 Measuring Temperature.
17.4 Thermal Expansion of Materials.
17.5 Summary.
CHAPTER 18 Ideal Gases.
18.1 Introduction.
18.2 The Gas Laws.
18.3 Biological Applications.
18.4 Kinetic Theory of Gases.
18.5 Summary.
CHAPTER 19 Phase and Temperature Change.
19.1 Introduction.
19.2 Phase Changes.
19.3 Temperature Changes.
19.4 Energy Conservation.
19.5 L and c Values for Water.
19.6 Summary.
CHAPTER 20 Water Vapour and the Atmosphere.
20.1 Introduction.
20.2 Mixtures of Water Vapour and Air.
20.3 Partial Pressure, Moisture Content.
20.4 Atmospheric Properties.
20.5 Psychrometry.
20.6 Applications.
20.7 Summary.
CHAPTER 21 Heat Transfer.
21.1 Introduction.
21.2 Conduction.
21.3 Convection.
21.4 Radiation.
21.5
... weniger
Bibliographische Angaben
- Autoren: Kirsten Franklin , Paul Muir , Terry Scott
- 2010, 2. Aufl., 455 Seiten, Maße: 21,2 x 29,7 cm, Kartoniert (TB), Englisch
- Verlag: Wiley & Sons
- ISBN-10: 0470665939
- ISBN-13: 9780470665930
Sprache:
Englisch
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