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Mathematics of Computation

Published by the American Mathematical Society since 1960 (published as Mathematical Tables and other Aids to Computation 1943-1959), Mathematics of Computation is devoted to research articles of the highest quality in computational mathematics.

ISSN 1088-6842 (online) ISSN 0025-5718 (print)

The 2020 MCQ for Mathematics of Computation is 1.78.

What is MCQ? The Mathematical Citation Quotient (MCQ) measures journal impact by looking at citations over a five-year period. Subscribers to MathSciNet may click through for more detailed information.


Mechanical Aids to Computation
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Math. Comp. 1 (1945), 452-454 Request permission
  • H. P. Kuehni and H. A. Peterson, A new differential analyzer, Elec. Engrg. 63 (1944), 221–228. MR 10071, DOI 10.1109/EE.1944.6440258
  • Bush, “The differential analyzer: a new machine for solving differential equations,” Franklin Institute J., 212, 1931, p. 447-488. Irven Travis, “Differential analyzer eliminates brain fag,” Machine Design, July, 1935, p. 15-18. Hans Kraft & Charles G. Dibble, “Some two-dimensional adiabatic compressible flow patterns,” J. Aeronautical Sci., v. 11, 1944, p. 283-298. J. Maginniss & N. R. Schultz, “Transient performance of induction motors,” A.I.E.E., Trans., v. 63, 1944, p. 641-646, discussion p. 1458. G. Keller, “An analytical theory of landing-shock effects on an airplane considered as an elastic body,” J. Appl. Mech., v. 11, Dec. 1944, p. A219-228; A.S.M.E., Trans., v. 66.
  • C. Concordia, Network- and differential-analyzer solution of torsional oscillation problems involving nonlinear springs, J. Appl. Mech. 12 (1945), A-43–A-47. MR 0011805
  • Concordia and F. J. Maginniss, “Inherent errors in the determination of synchronous-machine reactances by test,” Electrical Engineering, 1945, p. 288-294, A.I.E.E., Trans., v. 64. H. Summers & J. B. McClure, “Progress in the study of system stability,” A.I.E.E., Trans., v. 49, 1930, p. 132-158, discussion p. 159-161. W. Sears, “A study of electron orbits in the Barkhausen-Kurz effect,” Franklin Institute, v. 209, 1930, p. 459. Bush & S. H. Caldwell, “Thomas-Fermi equation solution by the differential analyzer,” Phys. Rev., v. 38, 1931, p. 1898-1902. R. Hartree, “Approximate wave functions and atomic field for mercury,” Phys. Rev., v. 46, 1934, p. 738-743. R. Shoults, S. B. Crary & A. H. Lauder, “Pull-in characteristics of synchronous motors,” Electrical Engineering, 1935, p. 1385-1395; A.I.E.E., Trans., v. 54. M. Gager & J. B. Russell, Jr., “A quantitative study of the dynatron,” Inst. Radio Eng., Proc., v. 23, 1935, p. 1536-1566. F. Manning & J. Millman, “Self-consistent field for tungsten,” Phys. Rev., v. 49, 1936, p. 848-853. G. Brainerd & C. N. Weygandt, “Unsymmetrical self-excited oscillations in certain simple nonlinear systems,” I.R.E., Proc., v. 24, 1936, p. 914-922. Lemaitre & M. S. Vallarta, “On the allowed cone of cosmic radiation,” Phys. Rev., v. 50, 1936, p. 493-504. R. Hartree & J. R. Womersley, “A method for the numerical or mechanical solution of certain types of partial differential equations,” R. So. London, Proc., v. 161A, 1937, p. 353-366. W. Butler & C. Concordia, “Analysis of series capacitor application problems,” Electrical Engineering, 1937, p. 975-988; A.I.E.E., Trans., v. 56. Hans Roder, “Effect of tuned circuits upon a frequency-modulated signal,” I.R.E., Proc., v. 25, 1937, p. 1617-1647. M. Meyers, D. R. Hartree, & A. Porter, “The effect of space-charge on the secondary current in a triode,” R. So. London, Proc., v. 158A, 1937, p. 23-37. R. Hartree, “On an equation occurring in Falkner and Skan’s approximate treatment of the equations of the boundary layer,” Cambridge Phil. So., Proc., v. 33, 1937, p. 223-238. Edith Clarke, C. N. Weygandt, & C. Concordia, “Overvoltages caused by unbalanced short circuits ; effect of amortisseur windings,” Electrical Engineering, 1938, p. 453-466, discussion p. 468; A.I.E.E., Trans., v. 57. R. Hartree & A. Porter, “The application of the differential analyzer to transients on a distortionless transmission line,” I.E.E., J., v. 83, 1938, p. 648-656. Copple, D. R. Hartree, A. Porter & H. Tyson, “The evaluation of transient temperature distributions in a dielectric in an alternating field,” I.E.E., J., v. 85, 1939, p. 56-66. Concordia, S. B. Crary & E. E. Parker, “Effect of prime-mover speed governor characteristics on power system frequency variations and tie line power swings,” Electrical Engineering, 1941, p. 559-567, discussion p. 734f ; A.I.E.E., Trans., v. 60. Concordia, C. N. Weygandt, & H. S. Shott, “Transient characteristics of current transformers during faults,” Electrical Engineering, 1942, p. 280-285, discussion p. 469; A.I.E.E., Trans., v. 61. Concordia, H. S. Shott & C. N. Weygandt, “Control of tie line power swings,” Electrical Engineering, 1942, p. 306-313, discussion p. 395; A.I.E.E., Trans., v. 61. G. Brainerd & H. W. Emmons, “Effect of variable viscosity on boundary layers, with a discussion of drag measurements,” J. Appl. Mech., v. 9, 1942, p. A1-6; A.S.M.E., Trans., v. 64.
Additional Information
  • © Copyright 1945 American Mathematical Society
  • Journal: Math. Comp. 1 (1945), 452-454
  • DOI: