Physics for the biological sciences: a topical approach to biophysical concepts
Gespeichert in:
Format: | Buch |
---|---|
Sprache: | English |
Veröffentlicht: |
Toronto
Thomson
2003
|
Ausgabe: | 4. ed. |
Schlagworte: | |
Online-Zugang: | Inhaltsverzeichnis |
Beschreibung: | Früher u.d.T.: Hallett, Frederick R.: Physics for the biological sciences |
Beschreibung: | Getr. Zählung Ill., graph. Darst. |
ISBN: | 0176224513 |
Internformat
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245 | 1 | 0 | |a Physics for the biological sciences |b a topical approach to biophysical concepts |c F. R. Hallett ... |
250 | |a 4. ed. | ||
264 | 1 | |a Toronto |b Thomson |c 2003 | |
300 | |a Getr. Zählung |b Ill., graph. Darst. | ||
336 | |b txt |2 rdacontent | ||
337 | |b n |2 rdamedia | ||
338 | |b nc |2 rdacarrier | ||
500 | |a Früher u.d.T.: Hallett, Frederick R.: Physics for the biological sciences | ||
650 | 7 | |a Biofysica |2 gtt | |
650 | 4 | |a Biophysique | |
650 | 4 | |a Biophysics | |
650 | 0 | 7 | |a Biophysik |0 (DE-588)4006891-2 |2 gnd |9 rswk-swf |
689 | 0 | 0 | |a Biophysik |0 (DE-588)4006891-2 |D s |
689 | 0 | |5 DE-604 | |
700 | 1 | |a Hallett, Frederick R. |e Sonstige |4 oth | |
856 | 4 | 2 | |m Digitalisierung UB Regensburg |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016462026&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
999 | |a oai:aleph.bib-bvb.de:BVB01-016462026 |
Datensatz im Suchindex
_version_ | 1804137594048479232 |
---|---|
adam_text | Contents
Chapter
1
Vibrations and Waves
1.1
Introduction
1-1
1.2
Simple Harmonic Motion
1-1
1.3
Traveling Waves
1-16
1.4
Standing Waves
1-23
1.5
Beats
1-28
Exercises
1-30
Problem
1-32
Answers
1-33
Chapter
2
Sound, Hearing and Echolocation
2.1
Introduction
2-1
2.2
The Nature of Sound
2-1
2.3
Acoustic Resonance
2-9
2.4
Energy, Power, and Intensity
2-12
2.5
Dependence of Intensity on Distance
2-16
2.6
The Ear and Hearing
2-18
2.7
Bat Physics: Echolocation and the
Doppler
Effect
2-27
Exercises
2-36
Problems
2-36
Answers
2-38
Chapter
3
Light and the Optics of Vision
3.1
Introduction
3-1
3.2
The Nature of Light
3-2
3.3
The Electromagnetic Spectrum
3-3
Physics for the Biological Sciences
3.4
Energy, Power and Intensity of Light
3-5
3.5
Reflection and Refraction
3-5
3.6
The Human Eye as an Optical Instrument
3-8
3.7
Image Formation by Spherical Surfaces
8-10
3.8
The Reduced Eye Model
3-20
3.9
Image Formation by Thin Lenses
3-21
3.10
Optical Defects of the Eye and Their Corrections
3-29
3.11
Visual Acuity and Resolution
3-34
Exercises
3-38
Problems
3-38
Answers
3-40
Chapter
4
Absorption and Emission of Light by Molecules
4.1
Introduction
4-1
4.2
Electromagnetic Waves and Photons
4-3
4.3
The Wave Nature of Electrons
4-7
4.4
Electrons in Molecules
4-11
4.5
Linear Molecules
4-13
4.6
Electronic States of Linear Molecules
4-20
4.7
Energy Level Diagrams
4-22
4.8
Cyclic
π
-Bonded
Molecules
4-23
4.9
π
-Electronic
Energy in a Ring Molecule
4-26
4.10
The Beer-Lambert Law
4-29
4.11
Absorption of Infrared and Microwave
Radiation by Molecules
4-34
4.12
Fluorescence and Phosphorescence
4-38
4.13
Biological Effects of Ultraviolet and Visible Radiation
4-41
Exercises
4-43
Problems
4-44
Answers
4-47
Chapter
5
Quantum Nature of Vision
5.1
Introduction
5-1
5.2
Structure
5-і
5.3
Mechanism of Vision
5-6
vui
Contents
Problems 5-16
Answers
5-17
Chapter
6 Radiation
Biophysics
6.1
Introduction
6-1
6.2
Structure of Nuclei
6-1
6.3
Radioactivity
6-3
6.4
Radioactive Series
6-8
6.5
Radioactive Decay and Half-Life
6-Ю
6.6
Biological and Effective Half-Life
6-11
6.7
Activity
6-13
6.8
Absorption of Radiation
6-14
6.9
Mechanisms of
γ
-Ray
Absorption
6-17
6.10
Radiation Exposure and Absorbed Dose
6-20
6.11
Equivalent Dose
6-23
6.12
Target Theory
6-27
6.13
Multiple Targets
6-30
6.14
Action of Radiation at the Molecular Level
6-32
Exercises
6-33
Problems
6-33
Answers
6-36
Chapter
7
Mechanics of Biological Systems: Kinematics
7.1
Introduction
7-1
7.2
One-Dimensional Motion
7-2
7.3
Acceleration Due to Gravity
7-8
7.4
Two-Dimensional Kinematics
7-11
7.5
Relative Velocity
7-20
Exercises
7-24
Problems
7-26
Answers
7-28
Chapter
8
Mechanics of Biological Systems:
Forces and Motion
8.1
Newton s Laws
8-1
8.2
Gravitational Force and Acceleration
8-5
ix
Physics for the Biological Sciences
8.3
Translational Equilibrium
8-8
8.4
Dynamics
8-13
8.5
Friction
8-18
8.6
Conservation of Momentum
8-25
8.7
Work and Energy
8-33
Exercises
8-48
Problems
8-52
Answers
8-54
Chapter
9
Mechanics of Biological Systems:
Rotational Motion
9-1
9-1
9-9
9-24
9-28
9-33
9-37
9-41
9-46
9-50
Chapter
10
Elasticity and Scaling
10.1
Introduction
10-1
10.2
Elasticity: Tensile Stress and Strain
10-1
10.3
Elasticity: Shear Stress and Strain
10-8
10.4
Scaling
10-14
Exercises
10-24
Problems
10-28
Answers
10-30
Chapter
11
Fluid Statics
11.1
Introduction
11-1
11.2
Pressure in Liquids
11-2
11.3
Archimedes Principle and Buoyancy
11-10
11.4
Pressure in Gases
11-11
9.1
Introduction
9.2
Uniform Circular Motion
9.3
Rotational Equilibrium: Torque
9.4
Rotational Kinematics
9.5
Rotational Dynamics: Moment of Inertia
9.6
Rotational Kinetic Energy
9.7
Angular Momentum
Exercises
Problems
Answers
Contents
11.5
Pressure
in
Earth s Atmosphere
11-14
11.6
Phase Diagrams
11-17
11.7
Surface Tension
11-19
11.8
Capillarity
11-25
11.9
Development of an Aneurysm
11-28
Exercises
11-31
Problems
11-32
Answers
11-34
Chapter
12
Fluid Dynamics
12.1
Introduction
12-1
12.2
Streamline Flow
12-1
12.3
Flow of an Ideal Fluid: Bernoulli s Theorem
12-3
12.4
Viscous Fluids
12-6
12.5
Flow of Viscous Fluids
12-10
12.6
Bolus Flow
12-15
12.7
Pulsatile Flow
12-15
12.8
Turbulent Flow
12-16
12.9
Biological Ramifications of Fluid Dynamics
12-19
Exercises
12-24
Problems
12-25
Answers
12-28
Chapter
13
Thermal Motion of Molecules
13.1
Introduction
13-1
13.2
The Boltzmann Equation and the
Distribution of Thermal Energy
13-1
13.3
Particles in Suspension: The Perrin Experiment
13-5
13.4
Sedimentation
13-9
13.5
Centrifugation
13-12
13.6
Distribution of Kinetic Energy
13-17
13.7
Random Walk Processes
13-20
13.8
The Diffusion Coefficient
13-24
13.9
Osmotic Pressure
13-32
13.10
Osmotic Effects on Biological Cells
13-39
xi
Physics for the Biological Sciences
Exercises
13-44
Problems
13-47
Answers
13-48
Chapter
14
Heat and Heat Flow in Biological Systems
14.1
Introduction
14-1
14.2
Specific Heat Capacity
14-1
14.3
Phase Changes
14-3
14.4
Thermal Expansion
14-7
14.5
Heat Exchange
14-10
14.6
Biological Heat Regulation
14-20
14.7
First Law of Thermodynamics
14-22
Exercises
14-23
Problem
14-25
Answers
14-26
Chapter
15
Introduction to Electricity
15.1
Introduction
15-1
15.2
Electric Fields and Forces
15-1
15.3
Electric Potential Energy and Potential
15-6
15.4
Capacitance
15-9
15.5
Current, Resistance and Ohm s Law
15-12
Exercises
15-22
Problems
15-23
Answers
15-25
Chapter
16
Magnetism
16.1
Introduction
16-1
16.2
Basic Magnetism
16-1
16.3
Electromagnetism
16-2
16.4
Magnetization of Matter
16-14
16.5
Electromagnetic Induction
16-18
Exercises
16-21
Problems
16-22
Answers
16-24
xii
Contents
Appendix 1 The
Poisson
Distribution Al-1
Appendix 2 Web-Based Resources A2-1
Appendix 3 Symbols A3-1
Appendix 4
Constants, Conversions,
Prefixes,
&
Greek A4-1
Index
1-1
Xlii
|
adam_txt |
Contents
Chapter
1
Vibrations and Waves
1.1
Introduction
1-1
1.2
Simple Harmonic Motion
1-1
1.3
Traveling Waves
1-16
1.4
Standing Waves
1-23
1.5
Beats
1-28
Exercises
1-30
Problem
1-32
Answers
1-33
Chapter
2
Sound, Hearing and Echolocation
2.1
Introduction
2-1
2.2
The Nature of Sound
2-1
2.3
Acoustic Resonance
2-9
2.4
Energy, Power, and Intensity
2-12
2.5
Dependence of Intensity on Distance
2-16
2.6
The Ear and Hearing
2-18
2.7
Bat Physics: Echolocation and the
Doppler
Effect
2-27
Exercises
2-36
Problems
2-36
Answers
2-38
Chapter
3
Light and the Optics of Vision
3.1
Introduction
3-1
3.2
The Nature of Light
3-2
3.3
The Electromagnetic Spectrum
3-3
Physics for the Biological Sciences
3.4
Energy, Power and Intensity of Light
3-5
3.5
Reflection and Refraction
3-5
3.6
The Human Eye as an Optical Instrument
3-8
3.7
Image Formation by Spherical Surfaces
8-10
3.8
The Reduced Eye Model
3-20
3.9
Image Formation by Thin Lenses
3-21
3.10
Optical Defects of the Eye and Their Corrections
3-29
3.11
Visual Acuity and Resolution
3-34
Exercises
3-38
Problems
3-38
Answers
3-40
Chapter
4
Absorption and Emission of Light by Molecules
4.1
Introduction
4-1
4.2
Electromagnetic Waves and Photons
4-3
4.3
The Wave Nature of Electrons
4-7
4.4
Electrons in Molecules
4-11
4.5
Linear Molecules
4-13
4.6
Electronic States of Linear Molecules
4-20
4.7
Energy Level Diagrams
4-22
4.8
Cyclic
π
-Bonded
Molecules
4-23
4.9
π
-Electronic
Energy in a Ring Molecule
4-26
4.10
The Beer-Lambert Law
4-29
4.11
Absorption of Infrared and Microwave
Radiation by Molecules
4-34
4.12
Fluorescence and Phosphorescence
4-38
4.13
Biological Effects of Ultraviolet and Visible Radiation
4-41
Exercises
4-43
Problems
4-44
Answers
4-47
Chapter
5
Quantum Nature of Vision
5.1
Introduction
5-1
5.2
Structure
5-і
5.3
Mechanism of Vision
5-6
vui
Contents
Problems 5-16
Answers
5-17
Chapter
6 Radiation
Biophysics
6.1
Introduction
6-1
6.2
Structure of Nuclei
6-1
6.3
Radioactivity
6-3
6.4
Radioactive Series
6-8
6.5
Radioactive Decay and Half-Life
6-Ю
6.6
Biological and Effective Half-Life
6-11
6.7
Activity
6-13
6.8
Absorption of Radiation
6-14
6.9
Mechanisms of
γ
-Ray
Absorption
6-17
6.10
Radiation Exposure and Absorbed Dose
6-20
6.11
Equivalent Dose
6-23
6.12
Target Theory
6-27
6.13
Multiple Targets
6-30
6.14
Action of Radiation at the Molecular Level
6-32
Exercises
6-33
Problems
6-33
Answers
6-36
Chapter
7
Mechanics of Biological Systems: Kinematics
7.1
Introduction
7-1
7.2
One-Dimensional Motion
7-2
7.3
Acceleration Due to Gravity
7-8
7.4
Two-Dimensional Kinematics
7-11
7.5
Relative Velocity
7-20
Exercises
7-24
Problems
7-26
Answers
7-28
Chapter
8
Mechanics of Biological Systems:
Forces and Motion
8.1
Newton's Laws
8-1
8.2
Gravitational Force and Acceleration
8-5
ix
Physics for the Biological Sciences
8.3
Translational Equilibrium
8-8
8.4
Dynamics
8-13
8.5
Friction
8-18
8.6
Conservation of Momentum
8-25
8.7
Work and Energy
8-33
Exercises
8-48
Problems
8-52
Answers
8-54
Chapter
9
Mechanics of Biological Systems:
Rotational Motion
9-1
9-1
9-9
9-24
9-28
9-33
9-37
9-41
9-46
9-50
Chapter
10
Elasticity and Scaling
10.1
Introduction
10-1
10.2
Elasticity: Tensile Stress and Strain
10-1
10.3
Elasticity: Shear Stress and Strain
10-8
10.4
Scaling
10-14
Exercises
10-24
Problems
10-28
Answers
10-30
Chapter
11
Fluid Statics
11.1
Introduction
11-1
11.2
Pressure in Liquids
11-2
11.3
Archimedes' Principle and Buoyancy
11-10
11.4
Pressure in Gases
11-11
9.1
Introduction
9.2
Uniform Circular Motion
9.3
Rotational Equilibrium: Torque
9.4
Rotational Kinematics
9.5
Rotational Dynamics: Moment of Inertia
9.6
Rotational Kinetic Energy
9.7
Angular Momentum
Exercises
Problems
Answers
Contents
11.5
Pressure
in
Earth's Atmosphere
11-14
11.6
Phase Diagrams
11-17
11.7
Surface Tension
11-19
11.8
Capillarity
11-25
11.9
Development of an Aneurysm
11-28
Exercises
11-31
Problems
11-32
Answers
11-34
Chapter
12
Fluid Dynamics
12.1
Introduction
12-1
12.2
Streamline Flow
12-1
12.3
Flow of an Ideal Fluid: Bernoulli's Theorem
12-3
12.4
Viscous Fluids
12-6
12.5
Flow of Viscous Fluids
12-10
12.6
Bolus Flow
12-15
12.7
Pulsatile Flow
12-15
12.8
Turbulent Flow
12-16
12.9
Biological Ramifications of Fluid Dynamics
12-19
Exercises
12-24
Problems
12-25
Answers
12-28
Chapter
13
Thermal Motion of Molecules
13.1
Introduction
13-1
13.2
The Boltzmann Equation and the
Distribution of Thermal Energy
13-1
13.3
Particles in Suspension: The Perrin Experiment
13-5
13.4
Sedimentation
13-9
13.5
Centrifugation
13-12
13.6
Distribution of Kinetic Energy
13-17
13.7
Random Walk Processes
13-20
13.8
The Diffusion Coefficient
13-24
13.9
Osmotic Pressure
13-32
13.10
Osmotic Effects on Biological Cells
13-39
xi
Physics for the Biological Sciences
Exercises
13-44
Problems
13-47
Answers
13-48
Chapter
14
Heat and Heat Flow in Biological Systems
14.1
Introduction
14-1
14.2
Specific Heat Capacity
14-1
14.3
Phase Changes
14-3
14.4
Thermal Expansion
14-7
14.5
Heat Exchange
14-10
14.6
Biological Heat Regulation
14-20
14.7
First Law of Thermodynamics
14-22
Exercises
14-23
Problem
14-25
Answers
14-26
Chapter
15
Introduction to Electricity
15.1
Introduction
15-1
15.2
Electric Fields and Forces
15-1
15.3
Electric Potential Energy and Potential
15-6
15.4
Capacitance
15-9
15.5
Current, Resistance and Ohm's Law
15-12
Exercises
15-22
Problems
15-23
Answers
15-25
Chapter
16
Magnetism
16.1
Introduction
16-1
16.2
Basic Magnetism
16-1
16.3
Electromagnetism
16-2
16.4
Magnetization of Matter
16-14
16.5
Electromagnetic Induction
16-18
Exercises
16-21
Problems
16-22
Answers
16-24
xii
Contents
Appendix 1 The
Poisson
Distribution Al-1
Appendix 2 Web-Based Resources A2-1
Appendix 3 Symbols A3-1
Appendix 4
Constants, Conversions,
Prefixes,
&
Greek A4-1
Index
1-1
Xlii |
any_adam_object | 1 |
any_adam_object_boolean | 1 |
building | Verbundindex |
bvnumber | BV023277153 |
callnumber-first | Q - Science |
callnumber-label | QH505 |
callnumber-raw | QH505 |
callnumber-search | QH505 |
callnumber-sort | QH 3505 |
callnumber-subject | QH - Natural History and Biology |
classification_rvk | WD 2000 |
classification_tum | CHE 802f PHY 820f |
ctrlnum | (OCoLC)51086718 (DE-599)BVBBV023277153 |
dewey-full | 571.4 |
dewey-hundreds | 500 - Natural sciences and mathematics |
dewey-ones | 571 - Physiology & related subjects |
dewey-raw | 571.4 |
dewey-search | 571.4 |
dewey-sort | 3571.4 |
dewey-tens | 570 - Biology |
discipline | Physik Biologie Chemie |
discipline_str_mv | Physik Biologie Chemie |
edition | 4. ed. |
format | Book |
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id | DE-604.BV023277153 |
illustrated | Illustrated |
index_date | 2024-07-02T20:38:17Z |
indexdate | 2024-07-09T21:14:46Z |
institution | BVB |
isbn | 0176224513 |
language | English |
oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016462026 |
oclc_num | 51086718 |
open_access_boolean | |
owner | DE-355 DE-BY-UBR |
owner_facet | DE-355 DE-BY-UBR |
physical | Getr. Zählung Ill., graph. Darst. |
publishDate | 2003 |
publishDateSearch | 2003 |
publishDateSort | 2003 |
publisher | Thomson |
record_format | marc |
spelling | Physics for the biological sciences a topical approach to biophysical concepts F. R. Hallett ... 4. ed. Toronto Thomson 2003 Getr. Zählung Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Früher u.d.T.: Hallett, Frederick R.: Physics for the biological sciences Biofysica gtt Biophysique Biophysics Biophysik (DE-588)4006891-2 gnd rswk-swf Biophysik (DE-588)4006891-2 s DE-604 Hallett, Frederick R. Sonstige oth Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016462026&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
spellingShingle | Physics for the biological sciences a topical approach to biophysical concepts Biofysica gtt Biophysique Biophysics Biophysik (DE-588)4006891-2 gnd |
subject_GND | (DE-588)4006891-2 |
title | Physics for the biological sciences a topical approach to biophysical concepts |
title_auth | Physics for the biological sciences a topical approach to biophysical concepts |
title_exact_search | Physics for the biological sciences a topical approach to biophysical concepts |
title_exact_search_txtP | Physics for the biological sciences a topical approach to biophysical concepts |
title_full | Physics for the biological sciences a topical approach to biophysical concepts F. R. Hallett ... |
title_fullStr | Physics for the biological sciences a topical approach to biophysical concepts F. R. Hallett ... |
title_full_unstemmed | Physics for the biological sciences a topical approach to biophysical concepts F. R. Hallett ... |
title_short | Physics for the biological sciences |
title_sort | physics for the biological sciences a topical approach to biophysical concepts |
title_sub | a topical approach to biophysical concepts |
topic | Biofysica gtt Biophysique Biophysics Biophysik (DE-588)4006891-2 gnd |
topic_facet | Biofysica Biophysique Biophysics Biophysik |
url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016462026&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
work_keys_str_mv | AT hallettfrederickr physicsforthebiologicalsciencesatopicalapproachtobiophysicalconcepts |