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215215Òø³æ (СÓÐÃûÆø)
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PROGRAM PENDULUM ! ! Main Program for a driven pendulum under damping solved with ! the fourth-order Runge-Kutta algorithm. ! Parameters: Q, B,and W (omega_0). ! PARAMETER (N=1000,L=100,M=1) DIMENSION Y(2,N) COMMON/CONST/Q,B,W ! PI = 4.0*ATAN(1.0) H = 3.0*PI/L Q = 0.5 B = 0.9 W = 2.0/3.0 Y(1,1) = 0.0 Y(2,1) = 2.0 ! ! Using the Runge-Kutta algorithm to integrate the ! equation ! DO 100 I = 1, N-1 T = H*I Y1 = Y(1,I) Y2 = Y(2,I) DK11 = H*G1(Y1,Y2,T) DK21 = H*G2(Y1,Y2,T) DK12 = H*G1((Y1+DK11/2.0),(Y2+DK21/2.0),(T+H/2.0)) DK22 = H*G2((Y1+DK11/2.0),(Y2+DK21/2.0),(T+H/2.0)) DK13 = H*G1((Y1+DK12/2.0),(Y2+DK22/2.0),(T+H/2.0)) DK23 = H*G2((Y1+DK12/2.0),(Y2+DK22/2.0),(T+H/2.0)) DK14 = H*G1((Y1+DK13),(Y2+DK23),(T+H)) DK24 = H*G2((Y1+DK13),(Y2+DK23),(T+H)) Y(1,I+1) = Y(1,I)+(DK11+2.0*(DK12+DK13)+DK14)/6.0 Y(2,I+1) = Y(2,I)+(DK21+2.0*(DK22+DK23)+DK24)/6.0 ! ! Bring theta back to the region [-pi,pi] ! IF(ABS(Y(1,I+1)).GT.PI) THEN Y(1,I+1) = Y(1,I+1)-2.0*PI*ABS(Y(1,I+1))/ * Y(1,I+1) END IF 100 CONTINUE ! WRITE (6,999 (Y(1,I),Y(2,I),I=1,N,M) STOP 999 FORMAT (2F16.8) END ! FUNCTION G1 (Y1,Y2,T) COMMON /CONST/Q,B,W G1=Y2 RETURN END ! FUNCTION G2 (Y1,Y2,T) COMMON /CONST/Q,B,W G2 = -Q*Y2-SIN(Y1)+B*COS(W*T) RETURN END --------------------Configuration: µ¥°Ú - Win32 Debug-------------------- Compiling Fortran... E:\Program Files\Microsoft Visual Studio\MyProjects\aaa\µ¥°Ú.f90 f90: Severe: No such file or directory ... file is 'E:\Program Files\Microsoft Visual Studio\MyProjects\aaa\¦Ì£¤¡ã¨².f90' Error executing df.exe. µ¥°Ú.exe - 1 error(s), 0 warning(s) [ Last edited by wangen994 on 2010-4-12 at 15:47 ] |
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Сľ³æ(½ð±Ò+0.5):¸ø¸öºì°ü£¬Ð»Ð»»ØÌû½»Á÷
jjdg(½ð±Ò+1):¸Ðл²ÎÓë 2010-04-12 01:07
wangen994(½ð±Ò+2):¸Ðл²ÎÓëÌÖÂÛ 2010-04-12 08:24
wangen994(½ð±Ò+2):»î¶¯ÆÚ¼ä¶îÍâ½±Àø 2010-04-12 08:24
Сľ³æ(½ð±Ò+0.5):¸ø¸öºì°ü£¬Ð»Ð»»ØÌû½»Á÷
jjdg(½ð±Ò+1):¸Ðл²ÎÓë 2010-04-12 01:07
wangen994(½ð±Ò+2):¸Ðл²ÎÓëÌÖÂÛ 2010-04-12 08:24
wangen994(½ð±Ò+2):»î¶¯ÆÚ¼ä¶îÍâ½±Àø 2010-04-12 08:24
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PROGRAM PENDULUM ! ! Main Program for a driven pendulum under damping solved with ! the fourth-order Runge-Kutta algorithm. ! Parameters: Q, B,and W (omega_0). ! PARAMETER (N=1000,L=100,M=1) DIMENSION Y(2,N) COMMON/CONST/Q,B,W ! PI = 4.0*ATAN(1.0) H = 3.0*PI/L Q = 0.5 B = 0.9 W = 2.0/3.0 Y(1,1) = 0.0 Y(2,1) = 2.0 ! ! Using the Runge-Kutta algorithm to integrate the ! equation ! DO 100 I = 1, N-1 T = H*I Y1 = Y(1,I) Y2 = Y(2,I) DK11 = H*G1(Y1,Y2,T) DK21 = H*G2(Y1,Y2,T) DK12 = H*G1((Y1+DK11/2.0),(Y2+DK21/2.0),(T+H/2.0)) DK22 = H*G2((Y1+DK11/2.0),(Y2+DK21/2.0),(T+H/2.0)) DK13 = H*G1((Y1+DK12/2.0),(Y2+DK22/2.0),(T+H/2.0)) DK23 = H*G2((Y1+DK12/2.0),(Y2+DK22/2.0),(T+H/2.0)) DK14 = H*G1((Y1+DK13),(Y2+DK23),(T+H)) DK24 = H*G2((Y1+DK13),(Y2+DK23),(T+H)) Y(1,I+1) = Y(1,I)+(DK11+2.0*(DK12+DK13)+DK14)/6.0 Y(2,I+1) = Y(2,I)+(DK21+2.0*(DK22+DK23)+DK24)/6.0 ! ! Bring theta back to the region [-pi,pi] ! IF(ABS(Y(1,I+1)).GT.PI) THEN Y(1,I+1) = Y(1,I+1)-2.0*PI*ABS(Y(1,I+1))/Y(1,I+1) END IF 100 CONTINUE ! WRITE(6,999)(Y(1,I),Y(2,I),I=1,N,M) STOP 999 FORMAT (2F16.8) END ! FUNCTION G1 (Y1,Y2,T) COMMON /CONST/Q,B,W G1=Y2 RETURN END ! FUNCTION G2 (Y1,Y2,T) COMMON /CONST/Q,B,W G2 = -Q*Y2-SIN(Y1)+B*COS(W*T) RETURN END |
2Â¥2010-04-11 23:18:42
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- ³ÌÐòÇ¿Ìû: 2
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- ½ð±Ò: 3218.1
- ºì»¨: 2
- Ìû×Ó: 576
- ÔÚÏß: 156.6Сʱ
- ³æºÅ: 765184
- ×¢²á: 2009-05-07
- רҵ: ÉúÎïÎÞ»ú»¯Ñ§
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jjdg(½ð±Ò+2):ÐÁ¿àÁË 2010-04-11 23:25
wangen994(½ð±Ò+1):»î¶¯ÆÚ¼ä¶îÍâ½±Àø 2010-04-12 08:24
jjdg(½ð±Ò+2):ÐÁ¿àÁË 2010-04-11 23:25
wangen994(½ð±Ò+1):»î¶¯ÆÚ¼ä¶îÍâ½±Àø 2010-04-12 08:24
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¾Í¸ÄÁË IF(ABS(Y(1,I+1)).GT.PI) THEN Y(1,I+1) = Y(1,I+1)-2.0*PI*ABS(Y(1,I+1))/Y(1,I+1) END IF 100 CONTINUE ! WRITE(6,999)(Y(1,I),Y(2,I),I=1,N,M) »¹ÓоÍÊDz»ÒªÓÃÖÐÎÄÎļþÃû¡£ |
3Â¥2010-04-11 23:19:25
215215
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4Â¥2010-04-12 13:05:45
215215
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- Ó¦Öú: 0 (Ó׶ùÔ°)
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5Â¥2010-04-21 12:06:26
