The bulletin of mathematical biophysics, volume 1, numbers 1-4
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- Chicago: University of Chicago, 1939
Chicago: University of Chicago, 1939. Contents of number 1:
[1] Landahl, H.D. Mathematical biophysics of cell respiration, 1-17.
[2] Weinberg, Alvin M. Note on biological periodicities, 19-22.
[3] Rashevsky, N. The mechanism of cell division, 23-30.
[4] Young, Gale. On the mechanics of viscous bodies and elongation in ellipsoidal cells, 31-46.
[5] Rashevsky, N. Mathematical biophysics of the cell with reference to the contractility of tissues and amoeboid movements, 47-62.
[6] Householder, A.S. Concerning Rashevsky's theory of the gestalt, 63-73.
NUMBER 2, June, 1939
N. Rashevsky. The mechanism of cell division, ii-ii.
Gale Young. Elongation and constriction in cell division. 75-91.
N. Rashevsky. On the so-called plasticity of the central nervous system, 93-94.
H.D. Landahl. Contribution to the mathematical biophysics of the central nervous system, 95-118.
NUMBER 3, Sept, 1939
N. Rashevsky. Mathematical biophysics of growth, 119-127.
A. S. Householder Studies in the mathematical theory of excitation, 129-141
John M. Reiner Diffusion in colloidal media ,143-149
Volume 1, Number 4, December, 1939
Robert R. Williamson A comparison of electrical and diffusion
forces in the metabolism of electrolytes 151--157
H. D. Landahl A contribution to the mathematical
biophysics of psychophysical
discrimination II . . . . . . . . . . . 159--176
Gale Young Streaming in diffusion fields . . . . . 177--184
N. Rashevsky Mathematical biophysics of growth . . . 185--185
N. Rashevsky The mechanism of cell division . . . . . 185--185
Gale Young Elongation and constriction in cell
division . . . . . . . . . . . . . . . . 185--185
Gale Young On the mechanics of viscous bodies and
elongation in ellipsoidal cells . . . . 185--185
Black cloth, gilt lettering on spine. Ex-Library. Library stamps on fep, title page, and rfep. [2], 188pp. Very good+/-.
[1] Landahl, H.D. Mathematical biophysics of cell respiration, 1-17.
[2] Weinberg, Alvin M. Note on biological periodicities, 19-22.
[3] Rashevsky, N. The mechanism of cell division, 23-30.
[4] Young, Gale. On the mechanics of viscous bodies and elongation in ellipsoidal cells, 31-46.
[5] Rashevsky, N. Mathematical biophysics of the cell with reference to the contractility of tissues and amoeboid movements, 47-62.
[6] Householder, A.S. Concerning Rashevsky's theory of the gestalt, 63-73.
NUMBER 2, June, 1939
N. Rashevsky. The mechanism of cell division, ii-ii.
Gale Young. Elongation and constriction in cell division. 75-91.
N. Rashevsky. On the so-called plasticity of the central nervous system, 93-94.
H.D. Landahl. Contribution to the mathematical biophysics of the central nervous system, 95-118.
NUMBER 3, Sept, 1939
N. Rashevsky. Mathematical biophysics of growth, 119-127.
A. S. Householder Studies in the mathematical theory of excitation, 129-141
John M. Reiner Diffusion in colloidal media ,143-149
Volume 1, Number 4, December, 1939
Robert R. Williamson A comparison of electrical and diffusion
forces in the metabolism of electrolytes 151--157
H. D. Landahl A contribution to the mathematical
biophysics of psychophysical
discrimination II . . . . . . . . . . . 159--176
Gale Young Streaming in diffusion fields . . . . . 177--184
N. Rashevsky Mathematical biophysics of growth . . . 185--185
N. Rashevsky The mechanism of cell division . . . . . 185--185
Gale Young Elongation and constriction in cell
division . . . . . . . . . . . . . . . . 185--185
Gale Young On the mechanics of viscous bodies and
elongation in ellipsoidal cells . . . . 185--185
Black cloth, gilt lettering on spine. Ex-Library. Library stamps on fep, title page, and rfep. [2], 188pp. Very good+/-.
Details
Title
The bulletin of mathematical biophysics, volume 1, numbers 1-4
Condition
Unknown
Publisher
University of Chicago: Chicago
Date
1939