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98 Adams/Solver SYSARY would return the requested x, y, and z displacements in states(1), states(2), and states(3), and return nstates=3. The following table lists the correspondence of other SYSARY fncnam values to Adams/Solver function names. fncnam: nsize: nstates: states: DISP 1-3 6 states(1) = DX(i1[,i2,i3]) states(2) = DY(i1[,i2,i3]) states(3) = DZ(i1[,i2,i3]) states(4) = PSI(i1[,i2]) states(5) = THETA(i1[,i2]) states(6) = PHI(i1[,i2]) TDISP 1-3 3 states(1) = DX(i1[,i2,i3]) states(2) = DY(i1[,i2,i3]) states(3) = DZ(i1[,i2,i3]) RDISP 1-2 3 states(1) = PSI(i1[,i2]) Q 1 NMODES* -- UVX** 2 3 -- UVY** 2 3 -- UVZ** 2 3 -- DC** 2 9 -- states(2) = THETA(i1[,i2]) states(3) = PHI(i1[,i2]) VEL 1-4 6 states(1) = VX(i1[,i2,i3,i4]) states(2) = VY(i1[,i2,i3,i4]) states(3) = VZ(i1[,i2,i3,i4]) states(4) = WX(i1[,i2,i3]) states(5) = WY(i1[,i2,i3]) states(6) = WZ(i1[,i2,i3])
Welcome to Adams/Solver Subroutines TVEL 1-4 3 states(1) = VX(i1[,i2,i3,i4]) states(2) = VY(i1[,i2,i3,i4]) states(3) = VZ(i1[,i2,i3,i4]) RVEL 1-3 3 states(1) = WX(i1[,i2,i3]) QDOT 1 NMODES* -- states(2) = WY(i1[,i2,i3]) states(3) = WZ(i1[,i2,i3]) ACC 1-4 6 states(1) = ACCX(i1[,i2,i3,i4]) states(2) = ACCY(i1[,i2,i3,i4]) states(3) = ACCZ(i1[,i2,i3,i4]) states(4) = WDTX(i1[,i2,i3,i4]) states(5) = WDTY(i1[,i2,i3,i4]) states(6) = WDTZ(i1[,i2,i3,i4]) TACC 1-4 3 states(1) = ACCX(i1[,i2,i3,i4]) states(2) = ACCY(i1[,i2,i3,i4]) states(3) = ACCZ(i1[,i2,i3,i4]) RACC 1-4 3 states(1) = WDTX(i1[,i2,i3,i4]) QDDOT 1 NMODES* states(2) = WDTY(i1[,i2,i3,i4]) states(3) = WDTZ(i1[,i2,i3,i4]) FORCE 1-3 6 states(1) = FX(i1[,i2,i3]) states(2) = FY(i1[,i2,i3]) states(3) = FZ(i1[,i2,i3]) states(4) = TX(i1[,i2,i3]) states(5) = TY(i1[,i2,i3]) states(6) = TZ(i1[,i2,i3]) 99
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Welcome to Adams/Solver Subroutines
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Compilers and Linkers Welcome to Ad
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Utility Subroutines About Utility S
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Subroutine: Does the following: Uns
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Input Arguments Welcome to Adams/So
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RETURN END AKISPL Welcome to Adams/
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Use Called By Any user-written subr
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T1( x - x0) = x - x0 CUBSPL , Welco
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Output Arguments Extended Definitio
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Extended Definition Welcome to Adam
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Input Arguments Output Arguments We
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Input Arguments Output Arguments Ex
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Use Welcome to Adams/Solver Subrout
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GETCPU retrieves CPU time used so f
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GETMOD returns the current analysis
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Use Called by Any user-written subr
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Prerequisite Welcome to Adams/Solve
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Page 49 and 50: C C Inputs: C INTEGER ID C C Output
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Page 57 and 58: C = [-A-1B] Welcome to Adams/Solver
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Page 61 and 62: Prerequisite STRING statement in da
Page 63 and 64: Prerequisites None Calling Sequence
Page 65 and 66: function. Welcome to Adams/Solver S
Page 67 and 68: Calling Sequence CALL IMPACT (x, x'
Page 69 and 70: Output Arguments Extended Definitio
Page 71 and 72: Input Argument Welcome to Adams/Sol
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Page 77 and 78: Use Called By SPLINE_READ Calling S
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Page 81 and 82: `S232' Space-two: 2-3-2 `S313' Spac
Page 85 and 86: Callng Sequence CALL SHF (x, x0, a,
Page 89 and 90: Calling Sequence CALL STEP5 (x, x0,
Page 97: Welcome to Adams/Solver Subroutines
Page 103 and 104: C INTEGER IPAR(2), N_UVX, N_UVY, N_
Page 105 and 106: CALL NMODES(FBDYID,NQ,ERRFLG) STRIN
Page 111 and 112: F(M 1 (q), M 2 (q), ..., M N (q)) W
Page 113 and 114: Examples Welcome to Adams/Solver Su
Page 115 and 116: SUBROUTINE SFOSUB (ID, TIME, PAR, N
Page 117 and 118: DO 100 J = 1 , 6 DFDDIS(I,J)=0.D0 D
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Page 139 and 140: C - Evaluate Normal Force component
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Output Arguments Welcome to Adams/S
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C X rotational field torque C ... F
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}; int NPAR; const double* PAR; int
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Using the DFLAG Variable Welcome to
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C RESULT(2) = ... RESULT(3) = ... R
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GSE_UPDATE Calling Sequence Welcome
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Use Corresponding Statement Welcome
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Output Arguments scale A double-pre
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Use Corresponding Command Calling S
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C ENDIF C C - Create request inform
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* * SENSOR struct sAdamsSensorEval
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FORTRAN - Prototype Welcome to Adam
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C C C C C C C C C C C C C C VALUES(
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C - Derivatives of prior first deri
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C C - Subroutine initialization ---
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*/ struct sAdamsVforce { int ID; in
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FORTRAN - Prototype Welcome to Adam
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Examples For an example of this sub
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