PřF:F2650 What is life? - Course Information
F2650 What is life?
Faculty of ScienceSpring 2015
- Extent and Intensity
- 1/1. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: z (credit).
- Teacher(s)
- prof. RNDr. Martin Černohorský, CSc. (seminar tutor)
- Guaranteed by
- prof. RNDr. Michal Lenc, Ph.D.
Department of Theoretical Physics and Astrophysics – Physics Section – Faculty of Science
Supplier department: Department of Theoretical Physics and Astrophysics – Physics Section – Faculty of Science - Timetable
- Fri 15:00–15:50 F4,03017, Fri 16:00–16:50 F4,03017
- Prerequisites (in Czech)
- 1. Do prosemináře "Co je život?" má přístup každý student/ka Masarykovy univerzity, aniž se požaduje předchozí absolvování některého předmětu. Výhodou, ne však podmínkou, jsou znalosti resp. dispozice užitečné pro orientaci v matematicko-fyzikální problematice a znalosti z biologie, především z genetiky. Uvádí-li se, že kniha by měla být povinnou četbou pro všechny studenty bez ohledu na jejich studijní obor, je to sice nadsázka, ale nadsázka, která význam knihy dobře vystihuje. V duchu tohoto názoru je seminář veden.
2.U zájemců o ukončení předmětu zápočtem se předpokládá v počátečních týdnech semestru povědomí o existenci knihy Erwina Schrödingera "Co je život?" a zapsání předmětu na základě dobré obeznámenosti se všemi údaji o předmětu uvedenými v Informačním systému Masarykovy univerzity. - Course Enrolment Limitations
- The course is also offered to the students of the fields other than those the course is directly associated with.
- fields of study / plans the course is directly associated with
- Physics (programme PřF, B-FY)
- Course objectives
- The study of Schrödinger's book "What Is Life?" may be for
students difficult because of its multidisciplinarity – physics,
biology, chemistry, mathematics.
The aim of the course is good understanding of all chapters and ability to explain rightly their main ideas.
Historical notes and actual remarks are organic parts of the course. - Syllabus
- F2650 Co je život?
- Erwin Schrödinger: WHAT IS LIFE?
- THE PHYSICAL ASPECT OF THE LIVING CELL.
- 1. THE CLASSICAL PHYSICIST'S APPROACH TO THE SUBJECT.
- #1. The general character and the purpose of the investigation.
- #2. Statistical physics. The fundamental difference in structure.
- #3. The naïve physicist's approach to the subject.
- #4. Why are the atoms so small?
- #5. The working of an organism requires exact physical laws.
- #6. Physical laws rest on atomic statistics and are therefore only approximate.
- #7. Their precision is based on the large number of atoms intervening. 1st example (paramagnetism).
- #8. 2nd example (Brownian movement, diffusion).
- #9. 3rd example (limits of accuracy of measuring).
- #10. The Ön rule.
- 2. THE HEREDITARY MECHANISM.
- #11. The classical physicist's expectation, far from being trivial, is wrong.
- #12. The hereditary code-script (chromosomes).
- #13. Growth of the body by cell division (mitosis).
- #14. In mitosis every chromosome is duplicated.
- #15. Reductive division (meiosis) and fertilization (syngamy).
- #16. Haploid individuals.
- #17. The outstanding relevance of the reductive division.
- #18. Crossing-over. Localization of properties.
- #19. Maximum size of a gene.
- #20. Small numbers of atoms in one gene.
- #21. Permanence of genes.
- 3. MUTATIONS.
- #22. `Jump-like` mutations – the working-ground of natural selection.
- #23. They breed true, i.e. they are perfectly inherited.
- #24. Localization. Recessivety and Dominance.
- #25. Introducing some technical language.
- #26. The harmful effect of close-breeding.
- #27. General and historical remarks.
- #28. The necessity of mutation being a rare event.
- #29. Mutations induced by X-rays.
- #30. First law. Mutation is a single event.
- #31. Second law. Localization of the event.
- 4. THE QUANTUM-MECHANICAL EVIDENCE.
- #32. Permanence unexplainable by classical physics.
- #33. Explicable by quantum-theory.
- #34. Quantum theory – discrete states – quantum jumps.
- #35. Molecules.
- #36. Their stability dependent on temperature.
- #37. Mathematical interlude.
- #38. Fine-structure of the level scheme.
- #39. Isomerism.
- 5. DELBRÜCK`S MODEL DISCUSSED AND TESTED.
- #40. The general picture of the hereditary substance.
- #41, The uniqueness of the picture.
- #42. Some traditional misconceptions.
- #43. Different `states` of matter.
- #44. The distinction that really matters.
- #45. The aperiodic solid.
- #46. The variety of contents compressed in the miniature code.
- #47. Comparison with facts: degree of stability; discontinuity of mutations.
- #48. Stability of naturally selected genes.
- #49. The sometimes lower stability of mutants.
- #50. Temperature influences unstable genes less than stable ones.
- #51. How X-rays produce mutations.
- #52. Their efficiency does not depend on spontaneous mutability.
- #53. Reversible mutations.
- 6. ORDER, DISORDER AND ENTROPY.
- #54. A remarkable general conclusion from the model.
- #55. Order based on order.
- #56. Living matter evades the decay to equilibrium.
- #57. It feeds on `negative entropy`.
- #58. What is entropy?
- #59. The statistical meaning of entropy.
- #60. Organization maintained by extracting `order` from the environment.
- 7. IS LIFE BASED ON THE LAWS OF PHYSICS?
- #61. New laws to be expected in the organism.
- #62. Reviewing the biological situation.
- #63. Summarizing the physical situation.
- #64. The striking contrast.
- #65. Two ways of producing orderliness.
- #66. The new principle is not alien to physics.
- #67. The motion of a clock.
- #68. Clockwork after all statistical.
- #69. Nernst`s Theorem.
- #70. The pendulum clock is virtually at zero temperature.
- #71. The relation between clockwork and organism.
- EPILOG. ON DETERMINISM AND FREE WILL.
- Literature
- SCHRÖDINGER, Erwin. CO JE ŽIVOT? Fyzikální pohled na živou buňku; DUCH A HMOTA; K MÉMU ŽIVOTU [WHAT IS LIFE? ThePhysical Aspect of the Living Cell; MIND AND MATTER; AUTOBIOGRAPHICAL SKETCHES]. Přeložili Martin Černohorský a Marie Fojtíková. Brno, VUTIUM, 2004, 256 s. info
- HALLIDAY, David, Robert RESNICK and Jearl WALKER. Fyzika :vysokoškolská učebnice obecné fyziky. Vyd. 1. Brno: VUTIUM, 2000, xxiv, 1198. ISBN 8171962147. info
- SCHRÖDINGER, Erwin. What is Life? The Physical Aspect of the Living Cell; Mind and Matter; Autobiographical Sketches. 1st printed 1992, 8th 2001. Cambridge (U.K.): Cambridge University Press, 2001, 184 pp. Canto edition. ISBN 0 521 42708 8. info
- SCHRÖDINGER, Erwin. Was ist Leben? : die lebende Zelle mit den Augen des Physikers betrachtet. Bern: A. Francke AG Verlag, 1946, 143 s. info
- SCHRÖDINGER, Erwin. Was ist Leben? :die lebende Zelle mit den Augen des Physikers betrachtet. München: Piper, 1987. ISBN 3-492-03122-6. info
- SCHRÖDINGER, Erwin. Čto takoje žizn'? : s točki zrenija fizika. Moskva: Atomizdat, 1972, 87 s. info
- Teaching methods
- Lectures with discussions
- Assessment methods
- Type of classwork seminar (workshop) with lectures and discussions. Student's activities: Participation in discussions, short assigned oral presentations (10 minutes), written tests ad hoc.
- Language of instruction
- Czech
- Further comments (probably available only in Czech)
- The course is taught annually.
- Enrolment Statistics (Spring 2015, recent)
- Permalink: https://is.muni.cz/course/sci/spring2015/F2650