Physics of the life sciences:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
New York, NY [u.a.]
Springer
2008
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XVII, 718 S. Ill., graph. Darst. 279 mm x 210 mm |
| ISBN: | 9780387772585 0387772588 |
Internformat
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| 245 | 1 | 0 | |a Physics of the life sciences |c Jay Newman |
| 264 | 1 | |a New York, NY [u.a.] |b Springer |c 2008 | |
| 300 | |a XVII, 718 S. |b Ill., graph. Darst. |c 279 mm x 210 mm | ||
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Datensatz im Suchindex
| _version_ | 1804138322926239744 |
|---|---|
| adam_text | Contents
Preface
..........................................................
vii
Acknowledgments
.................................................. ix
List of Tables
.................................................... xvii
1
Introduction
.................................................. 1
1.
Science, Physics, and Biology
.................................. 1
2.
Plan of This Book
............................................ 3
3.
Two Examples of Biophysical Systems: The Single
Cell
E. coli
Bacteria and the Human Heart
........................ 4
4.
The Atomic Nature of Matter
................................... 6
5.
Mass, Density, and the Size of Atoms: Exercises in Estimation and Units
. 8
Chapter Summary
........................................... 12
Questions/Problems
.......................................... 13
2
Newton s Laws of Motion for a Particle Moving in One Dimension
... 15
1.
Position, Velocity, and Acceleration in One Dimension
............. 16
2.
Newton s First Law of Motion
................................. 21
3.
Force in One Dimension
...................................... 23
4.
Mass and Newton s Law of Gravity
............................. 25
6.
Newton s Second Law of Motion in One Dimension
................ 28
7.
Newton s Third Law
......................................... 30
8.
Diffusion
.................................................. 33
Chapter Summary
........................................... 35
Questions/Problems
.......................................... 36
3
Applications of Newton s Laws of Motion in One Dimension
......... 43
1.
The Constant Force
.......................................... 43
2.
Motion in a Viscous Fluid
..................................... 49
3.
Hooke s Law and Oscillations
................................. 53
4.
Forces on Solids and Their Elastic Response;
Biomaterials
and Viscoelasticity
.......................................... 60
5.
Structure and Molecular Dynamics of Proteins
.................... 66
Chapter Summary
........................................... 71
Questions/Problems
.......................................... 71
4
Work and Energy in One Dimension
............................. 77
1.
Work
..................................................... 77
2.
Kinetic Energy and the Work-Energy Theorem
.................... 80
3.
Potential Energy and the Conservation of Energy
.................. 82
4.
Forces from Energy
.......................................... 87
5.
Power
..................................................... 91
Contents XI
Chapter Summary
........................................... 92
Questions/Problems
.......................................... 93
5
Motion, Forces, and Energy in More than One Dimension
........... 91
1.
Vector Algebra
............................................. 97
2.
Kinematics
................................................ 101
3.
Dynamics
................................................. 106
4.
Work and Energy
........................................... 110
5.
Contact Frictional Forces
.................................... 113
6.
Circular Motion Dynamics
................................... 118
7.
Centrifugation
............................................. 122
Chapter Summary
.......................................... 124
Questions/Problems
......................................... 125
6
Momentum
................................................. 139
1.
Momentum
............................................... 139
2.
Center of Mass
............................................ 145
3.
Center of Mass Motion: Newton s Second Law
and Conservation of Momentum
.............................. 150
Chapter Summary
.......................................... 155
Questions/Problems
......................................... 156
7
Rotational Motion
........................................... 161
1.
Rotational Kinematics
....................................... 162
2.
Rotational Energy
.......................................... 165
3.
Torque and Rotational Dynamics of a Rigid Body
................. 172
4.
Angular Momentum
........................................ 179
5.
Atomic Force Microscopy
................................... 185
6.
Rotational Diffusion; Cell Membrane Dynamics
.................. 186
7.
Static Equilibrium
.......................................... 189
Chapter Summary
.......................................... 193
Questions/Problems
......................................... 194
8
Ideal Fluids
................................................. 205
1.
Introduction
............................................... 205
2.
Pressure
.................................................. 207
3.
Dynamics of Nonviscous Fluids: Types of Flow
.................. 209
4.
Conservation Laws of Fluid Dynamics
.......................... 211
5.
Hydrostatics: Effects of Gravity
............................... 217
6.
The Measurement of Pressure
................................. 222
Chapter Summary
.......................................... 225
Questions/Problems
......................................... 225
9
Viscous Fluids
............................................... 231
1.
Viscosity of Simple Fluids
................................... 231
2.
Blood and Other Complex Fluids
.............................. 236
3.
The Human Circulatory System
............................... 237
4.
Surface Tension and Capillarity
............................... 241
Chapter Summary
.......................................... 244
Questions/Problems
......................................... 245
10
Waves and Resonance
........................................ 249
1.
Simple Harmonic Motion Revisited: Damping and Resonance
....... 249
2.
Wave Concepts
............................................ 254
XII
Contents
3.
Traveling Waves
........................................... 256
4.
Waves at a Boundary: Interference
............................. 258
5.
Standing Waves and Resonance
............................... 261
Chapter Summary
.......................................... 264
Questions/Problems
......................................... 265
11
Sound
...................................................... 269
1.
Basics
................................................... 269
2.
Intensity of Sound
.......................................... 271
3.
Superposition of Sound Waves
................................ 273
4.
Producing Sound
........................................... 279
5.
The Human Ear: Physiology and Function
....................... 282
6.
The
Doppler
Effect in Sound
................................. 286
7.
Ultrasound
................................................ 288
Chapter Summary
.......................................... 292
Questions/Problems
......................................... 292
12
Temperature and Heat
........................................ 297
1.
Temperature and Thermal Equilibrium
.......................... 297
2.
Thermal Expansion and Stress
................................ 300
3.
Internal Energy and the Ideal Gas
............................. 304
4.
The First Law of Thermodynamics
............................ 308
5.
Thermal Properties of Matter
................................. 312
6.
Vapor and Osmotic Pressure; Membrane Transport
and the Kidney
............................................ 317
7.
Heat Transfer Mechanisms
................................... 321
Chapter Summary
.......................................... 325
Questions/Problems
......................................... 326
13
Thermodynamics: Beyond the First Law
........................ 331
1.
Entropy and the Second Law of Thermodynamics
................. 331
2.
Gibbs Free Energy
......................................... 337
3.
Biological Applications of Statistical Thermodynamics
............ 341
Chapter Summary
.......................................... 344
Questions/Problems
......................................... 345
14
Electric Forces and Fields
..................................... 347
1.
Electric Charge and Charge Conservation
....................... 347
2.
Coulomb s Law
............................................ 349
3.
Conductors and Insulators
.................................... 352
4.
Electric Fields
............................................. 353
5.
Principles of Electrophoresis; Macromolecular Charges in Solution
... 360
6.
Modern Electrophoresis Methods
.............................. 361
7.
(Optional) Gauss s Law
..................................... 363
Chapter Summary
.......................................... 366
Questions/Problems
......................................... 367
15
Electric Energy and Potential
.................................. 373
1.
Electric Potential Energy
.................................... 373
2.
Electric Potential
........................................... 375
3.
Electric Dipoles and Charge Distributions
....................... 378
4.
Atomic and Molecular Electrical Interactions
.................... 382
5.
Static Electrical Properties of Bulk Matter
....................... 384
6.
Capacitors and Membranes
................................... 386
Contents
XIII
7. Membrane Channels: Part
I
.................................. 392
8. Electric Potential
Mapping of the
Human
Body:
Heart, Muscle, and Brain
..................................... 393
Chapter Summary
.......................................... 396
Questions/Problems
......................................... 397
16
Electric Current and Cell Membranes
.......................... 401
1.
Electric Current and Resistance
............................... 401
2.
Ohm s Law and Electrical Measurements
....................... 406
3.
Membrane Electrical Currents
................................ 412
4.
Overview of Nerve Structure and Function; Measurement Techniques
. 415
5.
Electrical Properties of Neurons
............................... 418
6.
Membrane Channels: Part II
.................................. 421
Chapter Summary
.......................................... 424
Questions/Problems
......................................... 425
17
Magnetic Fields
............................................. 431
1.
Magnetic Fields and Forces
.................................. 432
2.
Torque and Force on a Magnetic
Dipole ........................ 437
3.
The Stern-Gerlach Experiment and Electron Spin
................. 438
4.
Producing
В
fields
.......................................... 439
5.
(Optional) Ampere s Law
................................... 444
Chapter Summary
.......................................... 446
Questions/Problems
......................................... 446
18
Electromagnetic Induction and Radiation
....................... 453
1.
Electromagnetic Induction and Faraday s Law
.................... 453
2.
Nuclear Magnetic Resonance (NMR)
........................... 460
3.
Magnetic Resonance Imaging
................................. 467
4.
Maxwell s Equations; Electromagnetic Radiation
................. 470
Chapter Summary
.......................................... 472
Questions/Problems
......................................... 472
19
Electromagnetic Waves
....................................... 477
1.
Electromagnetic Waves
...................................... 477
2.
Laser Tweezers
............................................ 482
3.
Polarization
............................................... 485
4.
The Electromagnetic Spectrum
................................ 488
5.
The Quantum Theory of Radiation: Concepts
.................... 489
6.
The Interaction of Radiation with Matter; A Primer on Spectroscopy
. 491
Chapter Summary
.......................................... 497
Questions/Problems
......................................... 498
20
Geometrical Optics
.......................................... 503
1.
Optical Properties of Matter
.................................. 503
2.
Light at an Interface
........................................ 505
3.
Spherical Mirrors
.......................................... 509
4.
Optical Fibers and Their Applications in Medicine
................ 514
Chapter Summary
.......................................... 517
Questions/Problems
......................................... 518
21
Optical Lenses and Devices
.................................... 523
1.
Optical Lenses
............................................. 523
2.
The Human Eye
........................................... 530
3.
Optical Devices: The Magnifying Glass and Optical Microscope
..... 536
XIV
Contents
Chapter Summary
.......................................... 538
Questions/Problems
......................................... 538
22
Wave Optics
................................................ 543
1.
Diffraction and Interference of Light
........................... 543
2.
Single-, Double-, and Multiple-Slits and Interferometers
........... 548
3.
Resolution
................................................ 556
Chapter Summary
.......................................... 559
Questions/Problems
......................................... 560
23
Imaging Using Wave Optics
................................... 563
1.
The New Light Microscopies
................................. 563
2.
Optical Activity; Applications of Light Polarization
............... 568
3.
Electron Microscopy
........................................ 571
4.
X-rays: Diffraction and Computed Tomography (CT)
.............. 573
Chapter Summary
.......................................... 577
Questions/Problems
......................................... 578
24
Special Relativity and Quantum Physics
......................... 581
1.
Special Relativity: Mass-Energy and Dynamics
.................. 581
2.
Overview of Quantum Theory
................................ 585
3.
Wave Functions; the
Schrödinger
Equation
...................... 590
4.
Uncertainty Principle; Scanning Tunneling Microscope
............ 593
Chapter Summary
.......................................... 598
Questions/Problems
......................................... 600
25
The Structure of Matter
...................................... 603
1.
The Simple Hydrogen Atom
.................................. 603
2.
Quantum Numbers and Spin
.................................. 607
3.
The
Pauli
Exclusion Principle; The Periodic Table and Chemistry
.... 610
4.
Spectroscopy of Biomolecules Revisited
........................ 613
5.
Lasers and Their Applications in Biology and Medicine
............ 618
Chapter Summary
.......................................... 627
Questions/Problems
......................................... 628
26
Nuclear Physics and Medical Applications
....................... 633
1.
Nuclear Size, Structure, and Forces
............................ 633
2.
Binding Energy and Nuclear Stability
.......................... 635
3.
Types of Radiation and Their Measurement
...................... 638
4.
Half-Life and Radioactive Dating
.............................. 642
5.
Dosimetry and Biological Effects of Radiation
................... 645
6. Radioisotopes
and Nuclear Medicine
........................... 647
7.
SPECT and PET: Radiation Tomography
........................ 649
8.
Fission and Fusion
......................................... 652
Chapter Summary
.......................................... 655
Questions/Problems
......................................... 656
Appendix I
-
Review of Mathematics
........................... 659
Appendix II
-
Table of the Elements
___........................ 665
Appendix
ΠΙ
-
Answers to Odd-Numbered Multiple Choice
and Problems
............................................. 669
Figure Credits
____.......................................... 687
Index
................................................... 691
Contents XV
|
| adam_txt |
Contents
Preface
.
vii
Acknowledgments
. ix
List of Tables
. xvii
1
Introduction
. 1
1.
Science, Physics, and Biology
. 1
2.
Plan of This Book
. 3
3.
Two Examples of Biophysical Systems: The Single
Cell
E. coli
Bacteria and the Human Heart
. 4
4.
The Atomic Nature of Matter
. 6
5.
Mass, Density, and the Size of Atoms: Exercises in Estimation and Units
. 8
Chapter Summary
. 12
Questions/Problems
. 13
2
Newton's Laws of Motion for a Particle Moving in One Dimension
. 15
1.
Position, Velocity, and Acceleration in One Dimension
. 16
2.
Newton's First Law of Motion
. 21
3.
Force in One Dimension
. 23
4.
Mass and Newton's Law of Gravity
. 25
6.
Newton's Second Law of Motion in One Dimension
. 28
7.
Newton's Third Law
. 30
8.
Diffusion
. 33
Chapter Summary
. 35
Questions/Problems
. 36
3
Applications of Newton's Laws of Motion in One Dimension
. 43
1.
The Constant Force
. 43
2.
Motion in a Viscous Fluid
. 49
3.
Hooke's Law and Oscillations
. 53
4.
Forces on Solids and Their Elastic Response;
Biomaterials
and Viscoelasticity
. 60
5.
Structure and Molecular Dynamics of Proteins
. 66
Chapter Summary
. 71
Questions/Problems
. 71
4
Work and Energy in One Dimension
. 77
1.
Work
. 77
2.
Kinetic Energy and the Work-Energy Theorem
. 80
3.
Potential Energy and the Conservation of Energy
. 82
4.
Forces from Energy
. 87
5.
Power
. 91
Contents XI
Chapter Summary
. 92
Questions/Problems
. 93
5
Motion, Forces, and Energy in More than One Dimension
. 91
1.
Vector Algebra
. 97
2.
Kinematics
. 101
3.
Dynamics
. 106
4.
Work and Energy
. 110
5.
Contact Frictional Forces
. 113
6.
Circular Motion Dynamics
. 118
7.
Centrifugation
. 122
Chapter Summary
. 124
Questions/Problems
. 125
6
Momentum
. 139
1.
Momentum
. 139
2.
Center of Mass
. 145
3.
Center of Mass Motion: Newton's Second Law
and Conservation of Momentum
. 150
Chapter Summary
. 155
Questions/Problems
. 156
7
Rotational Motion
. 161
1.
Rotational Kinematics
. 162
2.
Rotational Energy
. 165
3.
Torque and Rotational Dynamics of a Rigid Body
. 172
4.
Angular Momentum
. 179
5.
Atomic Force Microscopy
. 185
6.
Rotational Diffusion; Cell Membrane Dynamics
. 186
7.
Static Equilibrium
. 189
Chapter Summary
. 193
Questions/Problems
. 194
8
Ideal Fluids
. 205
1.
Introduction
. 205
2.
Pressure
. 207
3.
Dynamics of Nonviscous Fluids: Types of Flow
. 209
4.
Conservation Laws of Fluid Dynamics
. 211
5.
Hydrostatics: Effects of Gravity
. 217
6.
The Measurement of Pressure
. 222
Chapter Summary
. 225
Questions/Problems
. 225
9
Viscous Fluids
. 231
1.
Viscosity of Simple Fluids
. 231
2.
Blood and Other Complex Fluids
. 236
3.
The Human Circulatory System
. 237
4.
Surface Tension and Capillarity
. 241
Chapter Summary
. 244
Questions/Problems
. 245
10
Waves and Resonance
. 249
1.
Simple Harmonic Motion Revisited: Damping and Resonance
. 249
2.
Wave Concepts
. 254
XII
Contents
3.
Traveling Waves
. 256
4.
Waves at a Boundary: Interference
. 258
5.
Standing Waves and Resonance
. 261
Chapter Summary
. 264
Questions/Problems
. 265
11
Sound
. 269
1.
Basics
. 269
2.
Intensity of Sound
. 271
3.
Superposition of Sound Waves
. 273
4.
Producing Sound
. 279
5.
The Human Ear: Physiology and Function
. 282
6.
The
Doppler
Effect in Sound
. 286
7.
Ultrasound
. 288
Chapter Summary
. 292
Questions/Problems
. 292
12
Temperature and Heat
. 297
1.
Temperature and Thermal Equilibrium
. 297
2.
Thermal Expansion and Stress
. 300
3.
Internal Energy and the Ideal Gas
. 304
4.
The First Law of Thermodynamics
. 308
5.
Thermal Properties of Matter
. 312
6.
Vapor and Osmotic Pressure; Membrane Transport
and the Kidney
. 317
7.
Heat Transfer Mechanisms
. 321
Chapter Summary
. 325
Questions/Problems
. 326
13
Thermodynamics: Beyond the First Law
. 331
1.
Entropy and the Second Law of Thermodynamics
. 331
2.
Gibbs Free Energy
. 337
3.
Biological Applications of Statistical Thermodynamics
. 341
Chapter Summary
. 344
Questions/Problems
. 345
14
Electric Forces and Fields
. 347
1.
Electric Charge and Charge Conservation
. 347
2.
Coulomb's Law
. 349
3.
Conductors and Insulators
. 352
4.
Electric Fields
. 353
5.
Principles of Electrophoresis; Macromolecular Charges in Solution
. 360
6.
Modern Electrophoresis Methods
. 361
7.
(Optional) Gauss's Law
. 363
Chapter Summary
. 366
Questions/Problems
. 367
15
Electric Energy and Potential
. 373
1.
Electric Potential Energy
. 373
2.
Electric Potential
. 375
3.
Electric Dipoles and Charge Distributions
. 378
4.
Atomic and Molecular Electrical Interactions
. 382
5.
Static Electrical Properties of Bulk Matter
. 384
6.
Capacitors and Membranes
. 386
Contents
XIII
7. Membrane Channels: Part
I
. 392
8. Electric Potential
Mapping of the
Human
Body:
Heart, Muscle, and Brain
. 393
Chapter Summary
. 396
Questions/Problems
. 397
16
Electric Current and Cell Membranes
. 401
1.
Electric Current and Resistance
. 401
2.
Ohm's Law and Electrical Measurements
. 406
3.
Membrane Electrical Currents
. 412
4.
Overview of Nerve Structure and Function; Measurement Techniques
. 415
5.
Electrical Properties of Neurons
. 418
6.
Membrane Channels: Part II
. 421
Chapter Summary
. 424
Questions/Problems
. 425
17
Magnetic Fields
. 431
1.
Magnetic Fields and Forces
. 432
2.
Torque and Force on a Magnetic
Dipole . 437
3.
The Stern-Gerlach Experiment and Electron Spin
. 438
4.
Producing
В
fields
. 439
5.
(Optional) Ampere's Law
. 444
Chapter Summary
. 446
Questions/Problems
. 446
18
Electromagnetic Induction and Radiation
. 453
1.
Electromagnetic Induction and Faraday's Law
. 453
2.
Nuclear Magnetic Resonance (NMR)
. 460
3.
Magnetic Resonance Imaging
. 467
4.
Maxwell's Equations; Electromagnetic Radiation
. 470
Chapter Summary
. 472
Questions/Problems
. 472
19
Electromagnetic Waves
. 477
1.
Electromagnetic Waves
. 477
2.
Laser Tweezers
. 482
3.
Polarization
. 485
4.
The Electromagnetic Spectrum
. 488
5.
The Quantum Theory of Radiation: Concepts
. 489
6.
The Interaction of Radiation with Matter; A Primer on Spectroscopy
. 491
Chapter Summary
. 497
Questions/Problems
. 498
20
Geometrical Optics
. 503
1.
Optical Properties of Matter
. 503
2.
Light at an Interface
. 505
3.
Spherical Mirrors
. 509
4.
Optical Fibers and Their Applications in Medicine
. 514
Chapter Summary
. 517
Questions/Problems
. 518
21
Optical Lenses and Devices
. 523
1.
Optical Lenses
. 523
2.
The Human Eye
. 530
3.
Optical Devices: The Magnifying Glass and Optical Microscope
. 536
XIV
Contents
Chapter Summary
. 538
Questions/Problems
. 538
22
Wave Optics
. 543
1.
Diffraction and Interference of Light
. 543
2.
Single-, Double-, and Multiple-Slits and Interferometers
. 548
3.
Resolution
. 556
Chapter Summary
. 559
Questions/Problems
. 560
23
Imaging Using Wave Optics
. 563
1.
The New Light Microscopies
. 563
2.
Optical Activity; Applications of Light Polarization
. 568
3.
Electron Microscopy
. 571
4.
X-rays: Diffraction and Computed Tomography (CT)
. 573
Chapter Summary
. 577
Questions/Problems
. 578
24
Special Relativity and Quantum Physics
. 581
1.
Special Relativity: Mass-Energy and Dynamics
. 581
2.
Overview of Quantum Theory
. 585
3.
Wave Functions; the
Schrödinger
Equation
. 590
4.
Uncertainty Principle; Scanning Tunneling Microscope
. 593
Chapter Summary
. 598
Questions/Problems
. 600
25
The Structure of Matter
. 603
1.
The Simple Hydrogen Atom
. 603
2.
Quantum Numbers and Spin
. 607
3.
The
Pauli
Exclusion Principle; The Periodic Table and Chemistry
. 610
4.
Spectroscopy of Biomolecules Revisited
. 613
5.
Lasers and Their Applications in Biology and Medicine
. 618
Chapter Summary
. 627
Questions/Problems
. 628
26
Nuclear Physics and Medical Applications
. 633
1.
Nuclear Size, Structure, and Forces
. 633
2.
Binding Energy and Nuclear Stability
. 635
3.
Types of Radiation and Their Measurement
. 638
4.
Half-Life and Radioactive Dating
. 642
5.
Dosimetry and Biological Effects of Radiation
. 645
6. Radioisotopes
and Nuclear Medicine
. 647
7.
SPECT and PET: Radiation Tomography
. 649
8.
Fission and Fusion
. 652
Chapter Summary
. 655
Questions/Problems
. 656
Appendix I
-
Review of Mathematics
. 659
Appendix II
-
Table of the Elements
_. 665
Appendix
ΠΙ
-
Answers to Odd-Numbered Multiple Choice
and Problems
. 669
Figure Credits
_. 687
Index
. 691
Contents XV |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| author | Newman, Jay 1948- |
| author_facet | Newman, Jay 1948- |
| author_role | aut |
| author_sort | Newman, Jay 1948- |
| author_variant | j n jn |
| building | Verbundindex |
| bvnumber | BV035160143 |
| 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 | UC 100 WD 2000 |
| classification_tum | PHY 004f |
| ctrlnum | (OCoLC)227032765 (DE-599)DNB986422843 |
| 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 |
| discipline_str_mv | Physik Biologie |
| format | Book |
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| id | DE-604.BV035160143 |
| illustrated | Illustrated |
| index_date | 2024-07-02T22:50:25Z |
| indexdate | 2024-07-09T21:26:21Z |
| institution | BVB |
| isbn | 9780387772585 0387772588 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016967273 |
| oclc_num | 227032765 |
| open_access_boolean | |
| owner | DE-29T DE-355 DE-BY-UBR DE-91G DE-BY-TUM DE-706 DE-11 |
| owner_facet | DE-29T DE-355 DE-BY-UBR DE-91G DE-BY-TUM DE-706 DE-11 |
| physical | XVII, 718 S. Ill., graph. Darst. 279 mm x 210 mm |
| publishDate | 2008 |
| publishDateSearch | 2008 |
| publishDateSort | 2008 |
| publisher | Springer |
| record_format | marc |
| spelling | Newman, Jay 1948- Verfasser aut Physics of the life sciences Jay Newman New York, NY [u.a.] Springer 2008 XVII, 718 S. Ill., graph. Darst. 279 mm x 210 mm txt rdacontent n rdamedia nc rdacarrier Biophysics Physik (DE-588)4045956-1 gnd rswk-swf Biophysik (DE-588)4006891-2 gnd rswk-swf Biophysik (DE-588)4006891-2 s DE-604 Physik (DE-588)4045956-1 s Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016967273&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Newman, Jay 1948- Physics of the life sciences Biophysics Physik (DE-588)4045956-1 gnd Biophysik (DE-588)4006891-2 gnd |
| subject_GND | (DE-588)4045956-1 (DE-588)4006891-2 |
| title | Physics of the life sciences |
| title_auth | Physics of the life sciences |
| title_exact_search | Physics of the life sciences |
| title_exact_search_txtP | Physics of the life sciences |
| title_full | Physics of the life sciences Jay Newman |
| title_fullStr | Physics of the life sciences Jay Newman |
| title_full_unstemmed | Physics of the life sciences Jay Newman |
| title_short | Physics of the life sciences |
| title_sort | physics of the life sciences |
| topic | Biophysics Physik (DE-588)4045956-1 gnd Biophysik (DE-588)4006891-2 gnd |
| topic_facet | Biophysics Physik Biophysik |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016967273&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT newmanjay physicsofthelifesciences |