Biological Physics: Energy, Information, Life
3.3. Excursion: A lesson from heredity[[Student version, December 8, 2002]] 85 Figure 3.11:(Diagram.) (a)Purebred red and white ...
86 Chapter 3. The molecular dance[[Student version, December 8, 2002]] time.) But whatwerechromosomes, anyway? It seemed impossi ...
3.3. Excursion: A lesson from heredity[[Student version, December 8, 2002]] 87 Figure 3.12:(Diagram.) Meiosis with crossing-over ...
88 Chapter 3. The molecular dance[[Student version, December 8, 2002]] b 2 μm 0.25μm d 200 μm Figure 3.14:(Optical photomicrogra ...
3.3. Excursion: A lesson from heredity[[Student version, December 8, 2002]] 89 T 2 Section 3.3.2′on page 95 mentions the role of ...
90 Chapter 3. The molecular dance[[Student version, December 8, 2002]] Figure 3.15:(Experimental data.) Some of Timof ́eeff’s or ...
3.3. Excursion: A lesson from heredity[[Student version, December 8, 2002]] 91 Figure 3.16: (Schematic.) Max Delbr ̈uck’s simpli ...
92 Chapter 3. The molecular dance[[Student version, December 8, 2002]] The idea that genes were big molecules was now on a stron ...
3.3. The big picture[[Student version, December 8, 2002]] 93 (the X-ray scattering work of Rosalind Franklin and Maurice Wilkins ...
94 Chapter 3. The molecular dance[[Student version, December 8, 2002]] case where the potential energy is a constant, this formu ...
3.3. Track 2[[Student version, December 8, 2002]] 95 T 2 Track 2 3.3.2′ Sturtevant’s genetic map (Figure 3.13) also has a more s ...
96 Chapter 3. The molecular dance[[Student version, December 8, 2002]] Problems................................................. ...
3.3. Problems[[Student version, December 8, 2002]] 97 A A∗ udt d Figure 3.17:(Schematic.) Gas escaping from a pinhole of areaAin ...
Chapter 4 Random walks, friction, and diffusion It behoves us to remember that in physics it has taken great scientists to disco ...
4.1. Brownian motion[[Student version, December 8, 2002]] 99 randomizing kicks of neighboring molecules can quickly degrade any ...
100 Chapter 4. Random walks, friction, and diffusion[[Student version, December 8, 2002]] Totally lifeless particles do exactly ...
4.1. Brownian motion[[Student version, December 8, 2002]] 101 Figure 4.1:(Metaphor.) George Gamow’s conception of the random (or ...
102 Chapter 4. Random walks, friction, and diffusion[[Student version, December 8, 2002]] a b Figure 4.2: (Mathematical function ...
4.1. Brownian motion[[Student version, December 8, 2002]] 103 0 0.2 0.40.60.8 1. 0.1 0.2 0.3 0.4 0 0.20.4 0.60.8 1. 0.1 0.2 0.3 ...
104 Chapter 4. Random walks, friction, and diffusion[[Student version, December 8, 2002]] Figure 4.4:(Diagram.) (a)Anatomy of a ...
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