Item Details

A Vector-Dyadic Development of the Equations of Motion for N-Coupled Rigid Bodies and Point Masses

by Harold P. Frisch
Format
Book; Government Document; Online; EBook
Published
Washington, D.C. : National Aeronautics and Space Administration ; [Springfield, Va. : For sale by the National Technical Information Service], 1974.
Language
English
Series
NASA Technical Note
Description
iii, 68 p. : ill. ; 27 cm.
Mode of access: Internet.
Notes
  • Prepared at Goddard Space Flight Center.
  • Cover title.
  • Includes bibliographical references (p. 61).
Series Statement
NASA technical note ; NASA TN D-7767
Logo for No Copyright - United StatesNo Copyright - United States
Technical Details

  • LEADER 01656nam a2200409Ia 4500
    001 011449711
    003 MiAaHDL
    005 20141009010000.0
    006 m d
    007 cr bn ---auaua
    008 920601s1974 dcua b f000 0 eng d
    035
      
      
    a| sdr-uiuc6393602
    035
      
      
    a| (OCoLC)25919244
    040
      
      
    a| ABC c| ABC
    049
      
      
    a| UIUU
    050
      
    4
    a| TL521 b| .A3525 no. 7767
    100
    1
      
    a| Frisch, Harold P.
    245
    1
    2
    a| A vector-dyadic development of the equations of motion for N-coupled rigid bodies and point masses / c| by Harold P. Frisch.
    260
      
      
    a| Washington, D.C. : b| National Aeronautics and Space Administration ; a| [Springfield, Va. : b| For sale by the National Technical Information Service], c| 1974.
    300
      
      
    a| iii, 68 p. : b| ill. ; c| 27 cm.
    490
    0
      
    a| NASA technical note ; v| NASA TN D-7767
    500
      
      
    a| Prepared at Goddard Space Flight Center.
    500
      
      
    a| Cover title.
    504
      
      
    a| Includes bibliographical references (p. 61).
    538
      
      
    a| Mode of access: Internet.
    650
      
    0
    a| Space vehicles x| Attitude control systems x| Design and construction.
    650
      
    0
    a| Space vehicles x| Attitude control systems x| Computer simulation.
    650
      
    0
    a| Equations of motion x| Computer programs.
    710
    2
      
    a| Goddard Space Flight Center.
    974
      
      
    b| UIU c| UIUC d| 20141113 s| google u| uiug.30112106912980 y| 1974 r| pd q| bib

Access online

Google Preview