[comp.binaries.apple2] Accrete - A planetary formation simulation

reeder@reed.UUCP (Doug Reeder) (11/27/90)

This should run on any II.  An accellerator is a BIG help, but not neccesary.

FiLeStArTfIlEsTaRt
ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789()
KACCRETE.SHK    AsVDAAAACA(4vIAg1KHAyZxLW8StAADAAwk)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(YZo6VkCShoElAAoiQkSShoBlQ
5gqgEDAoJBhgoJjAFxc(BdDM5RTGgAATPVPEOg4EJIFCHUaAIBABRswFpWASAGIU
hrOIuIeYIC45keSQIOl2MtiQAL1vDYASwRsmmdTFLkP9AQQGwaH8AQiAmAg2gAhr
gcpgUs9F9K5fPYEg2oSW6jdmYNRTx8FgxmRhoUQTxCIreqMA2cdhCoiRVtUERtIC
pG1Ymq6)B2lCzKLrGwC0xoIgmllAAOAquiYCEEzFBCQCPeNaX2e31zBIAq4Y5kxQ
I7tcmHcAygRTcydanEQAxwJzwgdYGNyT5ghT8iRem7N8ojZhwh9LGu1JCIgHUAw2
gUFSxgIJmKEkJChCkICgCCMQURzHk8SoAwsJC6jqPON8WE6vIGCBy6CSIFwjBgPQ
gQyQo8S(ByMC9QIAGgkESsXrUCAgDpvAEQsZhFltgTBgFjeqoLiAFg5DnmEIQiAF
A9Y6amwAiQIEgrGgxQAwkISQwBDZEgZoGCDXoOmyKbIRUhKZlpshmQGqigUAXiKC
ovbKOFYJHQkpgQAHHcQkAQyEIBghDEkmkIVlBGOSASBZwcR5FFhQiE1ASYWGQYMY
RQpIghkqIOEg)8CvrbPAYV8bEgMCQSAmBYYAJxOaGBIIgkEiBUSFBBFQErx(UFM9
PDrKBRCSSGA4A4A(gKRAFBAbOCRACBDolX3IOQQFChemnoUgWXNXE4ISiYtq1Vcq
1qGBEANwEmjagulNyglOvgVSCTRzdmWaUptt2WsyuChWcBP2oEHb0BYhgKCOSLAl
AgawQxCExhd9WgeQxdnXeJcpFVeaSUpM00KzFXnVidTbGkxaQ9hChGg)ZpwDhDRl
(7BKRSOO5ZTIz7gXffb32Mwf3QgCW0uhXeIBjXXfNtVh0JO040zZCg0VA(MiWQFV
YKZOKWR(JEoZnBqT2FkpLgu(PiI46FAAmpnhWmKg6p(xaZzrdZlYBrdHxLl)HR5B
wgLQsrQFCB4uuaufAgyGwRMLkDqBCtvpISJEaNIBDhEAAokgAWCqoCANKAIJ8pTC
7jL8xzjPHtRxJLHAcdbKJcJ3Dzx7vkxzJLfP8(7KfsF5vxtLvVBxRLYH9cTYBBMg
1FCgPf1wIEfv9)Cez8t84D1xRZPVg)Tf2(7nvgQ7dptLIWQXBAwrZ6Fsv6I5lppb
O1v5gDQZBRQN7yACsdFs2mcqEye2ba1H9B64tTvtLlcdwPxVMXu3N67Nr9Slcuw5
Hit(Befoh5HIUf10)WF)P1dgSH(Zua8n)76hX5UngBSBWzJ(lotMTzHUD41ahe5m
PJ8BcQhfw08WNUDa29o9aQRHo4zAFh7KYi3jz39uxCNSACHVA0IfABiyiBQ4BgWU
cKA7HX4C4oEBSVBIKYNxUiQiLDLBj6pdAbu1E)KKwFfDQCqbxBUJmiSAuwowj31Y
6cvKL2b5TRuBdfBx0ccRO6OiXsXsIS5CQZSogWByx2EcAEnUNGudzpHIN(BpSrz5
V4SxgRke55BuGskRmOpEnQyKJh)(BUK00KYesjCXfHBeN8SAGkGQA4BKO)0RqKZ0
lXOFyimtuLkVIEQlYSiHKBg81Jrndz(uoja5mTWR7WpEzU2WDdZqSUkC0MJBt)h2
UtMylJNkgpNuZEVJGbmStyZsecyONl3xyFK3LpcmPKzZYz7lTNRAew3g50yNK)Wz
)hU0zcC)Mly8u7pYj(4jj2jJFqb23Jh8jiCIHshOiTXUkBqUGpEBQXaquq5e1Mxn
DNUpLL9BcKVbouwDqrSsKNJuMBHdFQMmRpqGTqHVcTYmvl0IY6kucyiSiwFKZCBC
A(gi3KggeTGhRRNK07De1bDpvUCqEfsiaSRjc0mPJfeQyhqUGQa9HdS3PrSX17HT
ld2jJvSpqWlqqOlmlUQa2)BUK5G1IgaVcd9CVnWU15NTFM1ozDyK(6jSsWlmlWYb
ZW2CAulCwJgYysK7LrepV3YCkRsckWjw7llQZStMev3hQP9ZKyU19kn1LpadZp6)
UqMrFPopzXzKZPNy2Wr0pvkEJ9AUA(QILJgw2IW5YlxJ1q8vFCTtrnVbpqVahahp
r1Vp7KDACgFvlSxCxReaQv8KCb0y9upueXgQqjlS1Glpj0v5qH9OqZv0r3p1ORWt
bn85W6av96KszCGX4rlWwSvov05qLvmcWnJ31TLtuReHJeTy3KL)kAurK(63LEqS
yGHumWai4tbd(cMOag7I65idetSw0rr0LaKt5qoL9rNWYSrxv2vs78Ohi7zLScqF
8uu1FoAii0kCk14wj6YaNCuaVEgMySSWnvIGmq03UY29oUgoiBjMcHwlKFwDoGmI
NASBAoEhIVgaSB6ANAFgqRaAVBCGAAlAJSAQgLCBIIIwkpCEEBB6piUEUDGKkEPy
okEicb2LgEF2JIZQ0I1FBLZiuopSCEUIjRY0QRV0AEGQSRScg2nqgFoHALDggoqS
8AKYpON81YJTRa6PnJFIgAYytzmZiPnWuFa1CYDnpGYleY7VM7xbhJfSOkIxdG3U
vFTyj0bwEJUKAgDCxQDisod8sFKGSU83WqQKyYLL)V8XmI0duepKcuYX8b4bwgHH
pNMWuciVJJR6hJMZlJ5b1EdX7idTGtzZzY3q3pgbGPaCyzdDQKuT6iKmHoIkmZiR
ZZBUSYQOBQlxIFhIrJaVstjq)J4T97zeDFCUtzQq2RtMS(jqDE(UE9Q9Kf6H206w
rbPl1)77qIqMeLQFHGuAra(9cIxDgEiSKQQHUCaIBItACAJonAJQsDRA)SyGDx9N
UqCcPAnzAhPBoIGuipaLm)zDwIoWrlhxlCBTEy1JQ4TURMC6OBUpqENTpN1HdAUU
RR6hvVQRH3CfjP(FfoccKxxglIiREVMTCkHHIdQggHgtUABAKkUQ4YDUrwUbTRUz
TNST)ISaEqBACVJLtxD4Oz9ONNHTIg528Q4BMvzUwcYOtw8aD9xHAlZqlq0mKY7A
RPRvQbDcvwL1PQLXTdSvFLcuFnhNHNbsMJW)p4zMK0QHAQ4pTPYhvBjeNey0VICZ
pLlDIBVlzikC(pIglscBcdZKUUdM2U3TABhQMjO4YFAZHskdRQevGCxS(INLV1VP
eaVDsSJxaFKTsKVtjRIiyk0FJIYXTtFhUeQ41QgD()xzqNH)48tzg5mK625AF60l
w6TCTToSiBjIFo6pCwsKF40CtDWRAh)4F36JnS2UZXASnaoY)mVVBM1iFWu0XZ0O
W3tXC5YhUHzCPMEklydQX8kr8AcrWlyhCD(7SzvrOqhv9cldWExmzazSJPHHgSZa
WXpRlFcFEV6EgHPQZ5KtsThmsF)BjyDwbVUUx3x48EMbempql21d36Qp)Sh7tpox
AEiVTPY5uYF7YHK8t9st36R5EXpNa69SYMPPMTPpoiSAyIJQkgkalixIkjL)SiTB
mKmcWS4y1IZPuXkT3dCHpsU856S4vhBSAM7DUKw85KPPzRca)RL0YX9RkWqklCc(
4o6abceFidhdPellTirvZO32nP9emlhDU8K2UW(n)azS9W1Ymn1hiGF9q6tPNZec
rkw(DDDv8vTDhSAEMtSkds4xACAokTZHfvjr49cC2cpkOUsyLQrg8HvHzjj52BDO
bpZzQBktkvPPnZijIAgiASk0MyrArMcZKo83LcqVEGMQCmojmaHh1)5PiQ0DYCm8
7ikQQ1hrxztdYQkjfoAmCkk1ArhyU7K)5kSQcHEUpO0KginWolCai1AAMz4Ge(Th
n9e7hst)CZY6YCxQhVHITBqo6eMwKlYAswWOY33kY2DO6BVrgts8HIuwYZzsAo4z
KImqFb0OsGr9kT4ChLhHq0LymJBLhT2A2kVHglKM5fWR)nx6)aPgkFaoZrujGONY
lJkMUeYjKsRrAQ7qcGhCt1oxaVSkKPC1MkJLkF5jp)RGPiEKX2S9kMIL2ujI9DPv
(ancDsITHGhUnQ26YwSFFLg4FnzcrgUNBCVqFyfeAFay7t5ZcBlaOErUgzKUwgCN
JfzDSxBVdNjiXEaBFjt1FutBqXZSYzVWSEoGCD4JxfKBurSYsoSiMQoogoQXUe7D
EojCah0UljmMRRgwyXBH82OQsPamE6xpjOpxbktBl6KlyuivrN3JXE50JhcbwpeM
UdBRpbkzS(0NmSthXnKOTl9Rpy706M6yD1p6no0LOB)ljtFXO5igzTEc2RDUdUaU
KUBS2QKrGRKFQpdTRrWlvDH)pn7p79EKx2CJxYgwqQU9Y2rLAeaUCWKVNk2YGnxN
IZIHZhipB6UYhOletShONk4kVccSqMbJvtKaDlGL3saBNLdocovPcihiKLkERGwD
BSBQMJEBQiEQAUnUEBQBDAIkKZ0ChCY1Eg4QAJYDKLACgKGR4AoVBEhMgQBKiBEG
FDg4BZClJAipfoekp8FKYaXCiCMa9QlyhI(GhZC(PsYAAl6UJBlG1yAJBSKAAlAU
pBQrKQFAhADIdZ6FJBVQhTLuOBxQlqUorWhaD4qVNJYlrVzG2ta1sLR4sVh4(ZDX
cIx9vI4CJQCCdq5FiYPW1dq29Je2uX12qds4Nbb7EZxGJ0CQkg)AyexO3RAVN4W3
gCyuXJIEGoHCwpfAKYqY6f6AvlvezCBYScaQnAf3t(dmGwbQ4tREDCOwOLSC6iZv
Ni74dJ9zzp5mX7NX6c6o2vl22G8ZlcSr9MlnJDhRfezl8gjrQ6BC4EgtRLEAuLf7
AQygAwQ)CKRYlrEPUBlBimGGC7s(()zTuujpfjgO(04mrJL3pSrysPquI89uf48m
B4PUH8YohoZwTNRoVEDXDokOUVcwRFE8InYx6(2scOGHfIEyyJwEYS1xH1O(kUWH
iksQIyZmxdyhVIDj0gqGWYkUBTgn6opFuwKx7ZTrqwzauw9wKTdDVqC3K(cI0oLa
MR5PcDQtOt2CYAA3EaczNCsSAVZPlEGgwaFdFJC7wsftXBRlPp(cgIsJAVZIFuwF
oQFzhEysxBkdUFcwtBMTusYFUjKmkQ9y3IzcwNQAdUluNP5UEG)Vp378zsIw(pSI
VAzOhBkTaRVYM08Gxj0AgQJHon5QSVQhWO1S97UWaRJN8uuVddttHI(EydElbzge
Khg4sEyIVhxW)JHXDbtQte7PrFd13R0(cZnUiSHYVu8dYZM9XN)wclKTsMTvJK1)
2RZB3oaSeob2PNRbFkuOa4NOCSWX0Q13NjkJ1Eniy99NF2U1dDFhgfTHW2yeb4Ne
40T5vLZDcfLPm(jjCd2UsCW3ZGj2gxYrjs)XJmIq5EGS4QhY0iJ5Mju6OfGDJ6FB
r5HhalvHE(Gjrulm60(rtvBoJgIYqIxMxIqwoFGIIgEuILDqI7JVjos0mxpu2TVg
lkVcivaTX0M1hFJQArA1C8kwgrQ)WorakcoGrgsAi(KScSr6nsI6FiScQQHgASIK
IpgUCB4BhCgCSbwhpGz65PlzIZFX9(hQTNN9117XfCGXcfgrc(NaPuLSc3Bl3kE3
VXXHBfQWSXQDpE4q)dn5Qcn3ggFvXwUP43XpXG52yrX0C8babGNd63x5BUu1rQkz
s)bKPihReBJx(Wf8jz)(85Q0SvFSHwW3xsCQW1nDA4tM3QXoJme5K9FIs3fR9H6I
QAOggkaCzBv0UAQOaMHISHMBlEsUMUUxSLzf4343)D0pI9e9XRAHiYS(SrBQNAoz
qEGrCfP1wXyIjdHgt6AI5EEBFQeECDGJQ6lCVdrCPS2JUcRoKWZ7Ni6M89UbAw9W
6eLMpETVazsUVmrFkdjiJESMcLK43CkADRAV5kAcW)U2t0BWWkC(jkYCyQHvkMWE
MdiLMYIaGCl5hBpMAojDOoSQGpJMoQmWDiSql3MHIDBLgESIlQOeQC59STVMxPcK
TZyU0lUsfJVjFxkn5IEGWuUktTp8CRW6HdtPSK5SsuHKS5E5QdQUQCEzBjZpACkN
klSgUpQYTIEKEMDgBRAJYEkClKjwlRAkIEmJFg0UZ7BDoHaT86oEygInIlCggyce
YGWCAxxwzYA8MAGgDAXZQQeHAajB05AYcMICCCIQhgLNg92nB9zA1ZI0OInGkhVK
WTsKKdoHV6hcBsAjAkiHiUwPswHnl9yVaoAAMIJCCBGNAodHMfD001QI7MIyPlS4
Toteso)nkrAKCaAUNEi0DgidwjOCi6phzdagbMIqIpsFSI6jQCSqmoD5LShajSlY
Fx04qC00MZiEUZwg(MMeQlX8zaOgoGHDlzzw2IQCMEMpphcZ6j3GaC4zo1AlANUf
HAy8UIThUjacTI16n6gMAhmBQwCIhK1XOcEgurKItUO3CkxeARNUoGFkqDRwbeAI
EMh0DgTYZ(9TcrzT9DKleMEnGmF9TgvNdGHrv31auRlaSOjeGmdCLCgfWE8HJALg
qwSOvu6EW5Cjd2IngcCyhh8KKAE1DBSYQruGi(sTixQI0lKUTDc2BwoMIAXp93kq
qQYGlZHvvRBqxM1XmeaDtfrwh(SUUsFgRbESSRfl3piXHBhlOGpmalABaoiKtFFh
9CFloIAHIDCbAgdJ1RgCBp1wUJIMVSAmv4SEJUEBoT4y(NJgwRm8vsW8Mm1a04Fc
KYzEpCODELs7G2zVw6YDcChTh1QILcKoKwpaSwjBsD(xkCN8mNgswhdiwLCe84UD
IRF3FRBAMoqvECpb0pNgdSnDA1RMycIANECyDAybg6OCYRjUHscOeMUlLXi(yh8n
NEMK79BsBRGqILqACFCwqbmGaOrBv5QQc0CQPxMx06sl192nquAiXLI4RCupnYQi
M9DfVtIN)MsxB9SYYtM3E4kjW9mGPYZCUzUABBQ3YiMscXWMTGJ0awkZAlnOjEDv
Y6YUApzhAINpIAgC2ApBBSgdBS(JiEUkSAVgtMUCQkGAQJAVaA0KCUJASgCgIBss
GkKkEQI)RDhIDGyN0rXgHiWk0lKSRLMgVkElbSgqzkJhKSwB25GNDFphI2wBnvlN
TmJlqOmIfPUDZyijHTq6btClDwkvNbWY3lzmBUuEMCYaAa1OQBAAWQIAFG3kZRge
SjG9B1Up10EPVr2a3hFaTkqxb4shYHmhTAJgaykh)2lOS3lhG1qpxF3DrR6eeRwF
h5ilrBvbOd6EUkqnw0AxELLtpw0yB4wbVfkKJY9G4kkEEF25ODS2ohDvFW5O3dOu
r67QejvEBQcEp9wHzJHIT98ou3YKhqOF6oq6dubJjgh5KjDDKGMA4htMIGywLIAv
aXDhtGEeDocMN4SILsa10bfpHmsgTwI(CTADGitA6acsukC6z6eAM)DTKPIpAx4p
FKoYaiAj20iALiF2ePrjMKHCYgtO7Q4CjjkyGSDDMMKlAIsOywwqhoD370iL32O7
wPNEATsgpNPkgBps5MNPkbGpoOzTFAA(Yi0RHVIEoaKEz4wQIAkwR4Dh1IpC4JtO
wzyIwjqxKnhQuEyM8v7Rg)KMiBj0SlPzM)eqMLNV28DDRSQvuwgUnUQDpIFAQaY0
BoP4gOChz(i2aDezfoaoR1Ob97zT1IIPLy7OiwKMroixWLDvE(oKNaJuJ1LliL39
SFsUpMbMMPmTaY9TEk3UztFFXVCp4RIE20wIDoDwMjDBigUVo4ui5wQrUrAvKjdI
uEyK13Zf9SdTWip7hMxpOAWEQkQFrQIAgJiQZzWu)aL3AQCVqeYhYhLc73z1KABT
SnbKwH0MjvmSgnTjePGQC2NZXqF9UPZecjZPwgHEkJFSQAAbWzqWNWjPZDv8wOdm
TR9oJ18Uh(Hamldp8UlgGRIACoGi6NvqWVDemciGqK(xhhOBIAxGKIKk4K4JsgoI
iWpXcKCiJKOQoYqKjciYihCjSpCCa1e06t0vakgjzhme4gqV5YJvQefN3IeUCE0U
zxKlrPCVNlXjy4IkwBk29GJUBLoGyl9e4S4S3)uTPo0SwoZeWFxgUFOm06NH(o8U
w7ehZCJVxpKvBcgLIzTikPOkedFlE61djrAFcLDjTtmgalU6im2jdE3HLUxZxiPU
E(FTudHWFDwg4q6hg(JOsqRIQwwgDjnxVmnj5N4lP(pKq7iPa4xYYvEzkVBLP4Ma
9IPir3VTJTkd4GenzvQlaUUVBNg6UwvERn)v3P3y07xcBKJNQxHuC(fdCcSy1AEO
xAdFfkA9HzB09icNuSBASEtyQWEXhAOIBkaDYHaAwTCMMEKkSA5ZCTzycgbgNRYU
PMwSSWspuwCVwJ3M2sZoZkwQVUiVBQgNkLJFNmihpKSJVOcEWCu3FQsCkoUjC8h2
rtLWTZcSdxNVYCrPAswIgASgCJEYsCmzgAYiQV2DDDhESfIkDQaakHVc0GsG2Dgg
KgiB4PNXGYmJxQOUIP4R4H0I)YA6QWgmkCDZACEsofjhpGZC1SOY)mNWpF46kBpB
zzRoU26Y)xM(OyGUygYAhv(ALRlMTUITLJfVADlJYkqBYe0QQaIYkAGNEB4YYA6R
kKQCM1oQKixGAQGVigCEAgHJ0CRRmuklOgaomuM3JgLpwhQiMcyTBHyUFMADAGIh
BRkCs1pAzRYEwUo4ngYFgTQw(YXTzD2aBzAfEAACzVu78D9nwrCU)pYAPAKgmENU
GbgXep4z2MKNEdqaKAVcDQqAgUYAKkCQA4AkxIKFAik8aaC8wAJ0ukp00gs8Amxq
t6yaL2woepzyQADOIQEqKRiBBOFOIAVB3yZwUoEhMPXKhggaBpCqBuhz3QlUpWTH
BXwS5CIJ8AZ1GhKgSpQJWXTyALIcgkqalSlBJFtSrWjXK1wUJ43clCBUA0qIqkG0
TlsoqLqakh9pZ4SJCa1eTAQBRDFkAZGAu)4zUHb1jhu4TT1WULlwVjhoP0DaTUlO
wQZMmBPBQlSPUmUAJaQoDhA8RtfP0pY0Ku5lSV2IeSFqkSflp1VKa81SMDxUcLLF
EF5YTvXQLCPVCyPstK2HW0ciqyIyDlUzJ5CSGPHBm2DkSnkmKCpAiDIHyB7uhojL
7BYkzauMtU1pDvBfMayTsjQgOjSDAsE4WBWnBRoUvvGAiU467KApkwpuRM1dCS)j
jP09xVZRhrg52qR94IQvDQkAXzK)OhZFvBt7bmvhAIwstfKeICULgDXmXTIVuMxX
opyb7qAAAjVYAhDka)Pi)aB0qQMujZS6jxuUYArw8)NA3PGqfY1ehy4DxaNTMVZQ
ELAsSEWAIFCUktzRWmEn9aps1gUb4slqoApEtU7vKyEJyWpUwUK1NlSlJswUBAyA
QOgvzdJQPm1q3Sghq5qZLhHSS8NFu1chc6mHntUjZIrel2eokBAAEkFQMnN9RYjQ
M1bml95uAHtBimerczV43OSOuEozjc58Ak1OzaPVKaogKmvAnUjQvhrOc6qJct5j
EeYKWI5shaqaSOggVrpytpN260tmW6naOetmlVvTR10gIqpzWjHMP95MFA7O2SKq
2URz9fYoq)N2NN781Or)sp)bUKFnG0X3B8wPlKSfKEgwggIAUAUkCQQgURaC9DE(
wExACCYV8gBIRBIHfg4IwUIDQLM7S5YIhINBgSEK0FIVVoAAvECAtgQAAlHDNArC
ZGIQ(sBJREILOoaYuMRRKqJFEGEqC8hCEjcKGMMzAdMGxgmKUFoECJZBRhElkeIo
oHUUjDCHgUhjezHAwkPLKSs4q1wFgWITQO0ICSEISoGCWqUpKHmLTnGpxiVIq8ZY
2uUrQRj4yIzjKjJXlqtAfnChXhZFCoycG(jf3nEHVqMZG)VLzlFnKMtLBMUSgQAq
A4e1AiaqiLgSsCEiL9hkzsqTeiIAKE3MnIWZkrSSGVwBc4szoEgU70G0V6gxqmws
n9qV7od3jeNguEpYco9XeS6EIa2A7g4fu)XeJsN6ojuu74oUojQn1CQyAmBIkogg
GOaKCzARRzaavmvUtLAvBvoKUQRADXryMOlYkupNEvyWLRN0A4jTup9HKE8wy(GJ
7Ctpu2jaKtP36EoRpgMrKkJGVEiMwiVAQcNsx22kbCumP)7jCKKGABRN8gGS8jKy
SwIsLgIw2HAAGHxaIrFVeUZMvzmdwEWPA2wM4BG1cjIqtvudGT1tJWGAaQg4dqiE
iCAJcKwJJg4cAbJPdmTchDoJfQE05MjSsq7LA4z7zvi8sOaRARFykhwn0agqgIBd
i0JRQLOMCZODLs0sx3bBAl80hACWKLY6UZj8A2zNT9RqKXVOMlKDeuZZoRv4smeK
YZBH0IpnUNMc2lmhXvysQPuAjxWAoec8iGnUek0yUKge1AgJRB9cFjUDv6CielAy
MubeyRqlw1yZZkiX6AAj5px51dIaWXy2cQrxzOzgzrUvm4EqCjmnMHoWxgdBbMpN
Nm6dDVzkaPQzHpM7MxYsuEYJSOTHGkQQwEtFbKB2LEbjVyUPLmkhIxOrIiCSSkUe
s41asVAHhK4ci4RG0OWuIABlcCVDNi48GuZpIAqWPxP1f7xKRF9sFXjIp)zT2PCH
o6u1Mla)SUQDdWDIjjDLR4UOhwIC(dxCuYsNyV9etMmyHpUr257gHR(8BpzdH4kU
gZBQklWXkEmaJQ9FIiRgMBEg03CcH(OeNag1b(VIM54g)8AtDny0cWUZdPZPnLdB
WkVNixarR(xcndiZJEsm9wipVFMs(OUvZUd7FxjovbDSbPH)cMnmbB9PyF5n)uoF
1kgtcu0tpHn9)shtnQCB7fyeNaLzbH1b7XnLPWkAwbvEx)(Z7qt4QCySJF5QqnMX
K1)zH8jpAsMJELVXzyzQZhKnpVDJTgEYCIHBhQEUJKWYmMEGoMohO9G7gnuejSy3
479GALhpaCYwADmXww19IpUOAAhlYA6VA8qqXJUIBYpK0miiPAyiq1EJQACHHIXI
ZwhgkhQIKAJkQIkpCCJoDOpBEhKRMRQDIgxuBhMIwwEEYSRF(srYB0KMPceTiAuU
GXOBeADxGzYgZUYSAcXGACA8IRAAHrx4JQUpPQkPIRhcn0YHSwDAKyEgFNqUECEQ
BDDS0tGH(nmmfpQAEYAaiASHwf)EQOFkMNSUUYIqHAiiBxbOAojDFrSQ6YAkNEIh
DDNIQx9G4ChB01Q4bMKAGmpXBZKWgU2DGjwA5oEkMEGlDBGdQKkH4fhCYkZ5DNQw
1Cp3BhE5xxGVkz1CUprwsAEXWwbhkdWJY3RIPkCktnNQxkqwkXQ3DKUZa(OhQICZ
p0IHTA8NkdvC2(hiJX4y7ceWMCYmCRaKJlNoVHUBKz7tcoQKoXFCio3uQdMLaZE9
L8NA3IwvgnhB4CoBmpvXXAEJvtaJpsyonYur9OWrY3jL()ZERXPiNULA6yCXE1L3
RI4BnwO)cQoOALKCVvXrZqWgQxEBjWF9HkMZNPjdIv33Lk4BSBGQSLSUaJ38E2ZO
QSKdal2Y8IugvFs(p8whqiCBe6C0JtkUCBGkQpqJ(5yO3sHLQlui7ooOHVDgCgIr
SFcQ26Y4WtqtoLLDwBDdh4fBOkHCECpgrQBKpHxYd9CrudPaqLFpQgWNAq6hlA4p
g(JMPf6zmAwsKiJAWEwOAJgEBBABb)CUXBGmoofBxawqgGQqrQ3rLyS)vqmbAKIu
5i6hPLmQGTKmWZrPr3MZnyL2CmqpLEXbalddaBOUWr94ImgX4uYGnz7m31uDNx69
HCu2sJwxMwZ14weKcHMQ1oVOAAFAB8wMUAw2BUNSQAAFBKSQJIAKGaJhlCCSQAmK
GKUoAhHIQDhCJhIAAWjEiLgwURKSmoSDxiLzIi4IgxFTynaQDWMJGFzKznIpSQso
YmpBTgXkIhBxFMlBgREiC2kYKdRNVABrGe5Yi7EIPU)AT(JRyoSAyiJkQQ1pephQ
xjaaCAsQcBUAxlSfve9aAVCLggUCcQkbkiQpIC1QCkKQUAQ6CBgKHKgXJECbXJMq
6SGAy0sTUUATyCFgm8YF0qdXNqE6wDGFKDZDTetrHVDVwhi5IyFg(mbdXsrz6(FQ
TUAgYxoNHPWMWe3lahdtle19fNiYX2N6GW9c2E9D7KIpF2V(uWvG45hBDHOc3cRi
9DgTQgF4KR9PbgCLLamcrM7Zq65vhCdRhkuUAQKNpqIUIqGVaPiSliEDAt(iVuCW
cBiJOP7CoMN8wMAo(A7egHQDJGBsFBg8OJ5ihAjwrR263T4DBOg4ow8OSCB)YEUD
cVZMRSETUZeRFlM9rfLGbEkLxQdcN5xnFHn(aUKIYEqsJz9ZS55v)IYqy0KKr8rk
IMc84SFpLUGAk94Hc2sLTKAJxhQzOKyYUBRLQYM8Sw)On1hQHNdMDk5D(3MlTwoK
FoTGO9eBqenD2wcMIR594CVARHN8V8SFf2k0LSK44(QiOBNmieHHtkzjNQ3Wq04L
8GGAVRVn3KIVkII)IOPOx(4SIRBciIqTRSAIkI0QSdoGTN2HY97kLJXWgtMIR7Ud
lgWCzj7TPOliZ(1VLGKodJJVh0UcoUdmqpuA34W99v6chz7qOMD013GhL3wAsMKR
KIxF2Io3y)(tWftaVH7de5ddF006xTCW5aLJ0wnLMRa7WW58EoQpVfnV(WQfs5dF
4U0d8SizT)Auu1SZ9N2KYi(IlzF47cbp0EbAwBddOWeOld0pCrAJiWiKUFd(Pjvy
IMqX0CLNsEfUFhdNvr5PgrdaRGkA4ophQJQa4jovPnYKAgm0GC4lqakyTrx414kZ
aDqEIH0q3UpOaYPuxA7SGupaGr3tw2ObWtaJHfa7ugiFeVOum4upZaTJAYZ7sjK8
GO)vqCPpRe7BtSHAkqvxBA0Em72ws7I8mEP3zr3fnLT8(Fce7)4OCFEpF33HG(i0
cyWviQzooapOt2itka8yGbnpa43vUlRgb348AQsCZ8zl9(nfI2uNUmw)3yGMDkW6
DCAzje(rz035Hq6DhDAvotWs2uDTx597gdAw6xvfeBYmnYh(2(WdvA7t4k6eQyvR
ne7dy1SufvN5yrI0tuuHZv3DVNRG)ACxo2C3Jx4NuJH29H6BzgKtVHxnTRUQ4INI
SvSS(FiIQAKlgK2FIBgFqcxgaBYANACBEhKAyTHXwe9ruUCcMEABGgZZQg9Nkrzh
cnV4Y2SdScaqMCsXUYF0MR1qPSxADFFexiKflVUicWEiv5Q4dMMm7Ar9WKq(Fya4
pi3qkcw54mc2Cjpvw7vJkXVO(SLVXQ8EGKjAiS0MYeZG(djRmDGzvOOmHLrnr3IK
bXGL(IMlnWJOiFJXEyoYgNNIeSihelYkYQGzEn2ASDYD0jHkkHMWq8QNDaKYjTvK
WjnwqByRzQp0hEGrHhY0Sa(O8wJi9pSZVocO38gmiQIrRR1Y0wcBJro7VwMxmk)a
R47JIBCZwURwh00YMOXBDhbapXUMabkvzBASIwAqQENIExJKoAqCYK7ApiixamUY
jSrl59HLdzdRhnj8gYOHIl3ySZCbIjuXwUowBKcuXKpdmSjSa9hG2FmSTApkicSN
FnxWk5eKMb3jfbh4)w0cIStQozdZ4NfQposEwV28cwIZHPVMpK3K85noxlE5xFVe
USjam3VLwGET68GSR(jkZjExlmhvF3ZTQJmQaPIFRFZKMIGgpovlwPdQyMICSoJ8
MkeSWHwLRqnf4nGrBgFBPotCSBZAFEQNQSEAUCCSISFIAaRoq8HNVgaAA2AISFgS
oBSdREGEQCCSYxBBCDG8aEZhkwjPFJakKmKj5TDcATWMZSwJImAmYMOgTRASEhYB
BWJISFZmFEQwDQABAZJkYhgzjQtBPGwp5RklURsETh0oKGWuURUFHHwrKUMWXtmd
bjWhlzkdTPOhWHGurVpPc7iEnr1rrAr8XAeNRmVv4XkvowRFZiFNzMEnZw0p0NnM
1jEgvS5DS2hscCiHBRnaRQFPKRxncSIGIBCg9i2Bq16JLwahd2n3ubrK)NLgdi6g
V)uKDi7utX(ly36mPQ8uZewHrVPvC8GEVKgPmKnJW)GNxCA)L8QJ201N85)dqQ3N
hTaBY5wn)wKI1U2zCwFIIZgEqKJHQt6bgIgLysYl4ukGDhONJCkipSoDBVgrpKig
ZBUCjQ4AAookiUDFNC0wL6iyOPTQPtG8MJNN1GwAaqKV7XpLJNA2(AxPEwQKhOFA
IPs4RjhtkJjM9EHO8bF0OSTrLRlXzrhRHhyQMZHtfIp6CL2nvEyEIH8myFEF9W8r
RznWgaLOGvOvqeaKtVhMESIs4CXiGOIJEs2LWwUQMQTmBnRsNFGB8mXHQ8x7qgk(
(LrxQhsCyNJRGHlklXAHLSE0S14uN9CQJprSmwWq6RVgnCkA8rFghiaKmrhiaFwT
SGw4oiSAyIJQkikaAFCIkIg0ZKVk8905UUILtkFBAaA2wKgAiVRKW0zOgBgkAYLU
oA3m0BYhEiCEKIFgAeAS15qQnFwQ2mx1FyEWE6QnKTkmuttd31wvXsG3ZJMCCeeA
gJtF3MYVx8HIdddTd9ZgZFyFA3TlTKYWgjhgF(3gu5FRXVQvBJHXBYIENVLbMC4R
4Ve7ifhH1ckGwOQWJKoFoo)yjNYFLmqBOtiXKWWRAXTpARg2gQCmpBEFkO8YWFlt
ZhW3hlv)2tXhQ6tO4Xd6MDhXJmYtIpdNAkWJ2ajlBWW6iblBGsWnS6Ve37yNnCGX
mPZ(Co2ugFSAzk)ll5pbaBazohAA9dt1NMcFcHObdoMS4APU(VhOJr0(yQToikKa
uPBBCHP9o(XJQcJQifLfue0iQ02tiAhERhsLNkiU)xCDHAYK8RcDeDFC1zJcfw1k
MbXId6dJhkcoj0B(W)Z0OjPXor5XRMu85xk7H2lzZnX3w(Yau8fWkrrrA14a3Cng
o9nhzM(A65pCHFt4Fym3feyNv(deg31D(mt7Vzh2CKWREjjD8Oyr5z9mTcg6Pnc9
zUcdQMLYBAkh59qleNIo3TqzVV(rZ33D)15CBXHOk2T9szgcwTlyrq7ZIMWOgP44
XCN)m8Quj0Hk8DCdAjEMP2t9jnvaSGC2ILMsF4WugwnL3fCE1ceuEdGMM0JbEj5J
r2P5bmWXOpt27ELyHGOKIzHTYZIDmCxQOFYYA)NdDhhvQF(8kZWiTDRYMVEChAf2
jAHCIwCsaBzRbk4z37BPFjGdg11acoVC2NE4hJE4PaGIQv22APdGO9yAHF5rZ0Bl
DfbShG9aDsaCg8wo2MUCJGhNhzHZZtRHmHDwWpIsMg94IDDnBrBCEU6kEPU5aoEK
WKpRljTanfULeV1xQRwqzXCeLDCrCFUhQBIAeDuVwACG(JtTlTlvAB09CcVDp54K
xIM8Eh1AxG9z8nLjDjhZnpcScKjmmQgJwrMCmJGBKGIkrUETHEFQRHY3T2eCyIQV
llQknBSDDSr2X9wCq5gl7zw0)QEhAmw)zJMgY5mcBMEawAlKiGo3oRr)y)BR60IC
ZLKFENGBOhHGAXVa61sWgM9HVGQEj1gqBRwfG7NOy2FS8TIZDhO3Ea8KBD(YMt1m
N5zgCRkuWGipmy5MZkNTOGWiEEJtjmeNOlkZx6YEUceUjKlKnFUSvJipiNKPwJgO
EBRSIg5YCNaBGpbjSqtc8jrk7kDJwSVuYOtapV2dWOAFiq6sYd5UWVaFYhR7V5kc
SXwj6jgHT3MSKESOD3UH60NR2GqzqVZFSxCvVmQepFgAKQFAIIKAIBBJCXKIfo(B
R6DiAUhUEBQBggEkCTElAtAUVeiGKQNAgBHEJMYwiQZcB5AklKQIDQqCAgKUThHi
cqCEiFPWd0oxJg70kIbOgMYQaDEeAAuBKIECCD4yIJ(AW4JRkrWMOEP6CIZUlpSC
hQj64l1kMLFJrNp(i8qGc5QwhDP2(Ub1dYwtoftGq0ZSEqbWmOZKUFTTybKdiexV
Y4p2UzxZxZeI5tsVMpXgvWd9SChRqBZmAo(kmZSRapJFSYwOAQVxAEhIB9Qsgegq
gBo8JmIATxDjhRJ6MaywTBBHRws8Eag3ydTkhSo2Na(kpR(GpQt261tTg(nq(0Of
AUOH

FiLeStArTfIlEsTaRt
ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789()
KACCRETE.SHK    AsVDAADACA(4vIAg1KHAyZxLW8StAsSDAw20
iHC28WLiv25UgfOigX4GGMfxE7RUkR1(n9ocPfiUorzmANAgIxMEy04gjiA30JTj
7GOAjaM8II6LIOF0UYvQUOgObZ8R5LMDIhINyV7iHgAOAZEjaV5INOO9AeWC762y
7qa6QgiTjDJ4kPTjOOGKIwVO5Hk8osIyTpwgDJROaSx(eX8pDAtCDPgiMMKm4SME
a4gEDTaEjEShV8CLkAZC3n8cjhGQWRVjxg8cMlTDQ00rIjDwYnBE10CPh7vpA800
0Tg(JA0zQRdHBQBA17EAzhtRAAUcCAQAAAAAvAQAAMOAGAAAAAAAAAJAAIAATACA
KEhWAAAAWFRHAYAFvAAARolFAAgCAAAAAAAADAAAAAAAAAAAAMAAgAAAAAAACAgA
AAAABCAAAAgLAQSeJxEAAAgQAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAwIQ
Pc)28wUAyKWVTIhQYG5foCD9TKhiV6AWgyMGcmciMomiFLttCJFhlYwPiJW32EGz
cE)hIMn62Gyx2wVkSnVMUksigxUUiwCypo0cC9rJjEbMM)4srIDRlwQyHxwkYOJY
4KDboCCzEqriErvNpwNJwZmJ5mvtWcO64xEVi0ECQrI1hLUMj0OCDtItxEVLBUNC
okgiiuGnKqoRqqmKGyUVWZVIqQ5ci2nJFPmOu0Mp4VkJ2lSMmHYO5cpIhTJGDRIE
FcpE1ZRXlzd2xfJDyJGvxMaimykUHaQ4u)xWb)zA3bb4Ax803NwF2TU)An8UYG7L
FnMHuMApeEhJcg3mTYxyYObFFPKVs4BRM1iJp8fiAKBqWz09R8GqUNUNTGlQnRSD
UnEUqwQC6FCxgLFDuQkMyQ(q6KxbHFyJgpGHSJFoIIYYo4(hjIcrjSrKoUgwZaUU
wJAVAUxLAkgKPFBDF9CdIBJMC9Z5kiCCKCBANWQSoyiQCBYBlgKKqIEgAWAAIjCW
BAABmHAkIg3DCYMIJROalERphBWBMCGEHWCzkTJaptUxFzOlUm2yZUA9hZNagBRQ
AiGmhEyFHCAoBt(E8AQEAwwSSJgiJAYMwDc)PUYMDMA3Eo1gFNAqZoWAS4IoiB4B
SZCAdQAqVoAdHZIojVwNGQ3GfWIqByvaaBohmnq(ACzHCQKJswHHgIwhnyShBLiA
CYIKFSHTCAdBE0qBkpgVaQbZMRIAeAhA2W3IgsAHUHXUABdAK0wggCMAAGADMSKx
0gYAckkEgkg0UogEcbT)9scc05s0lX41QSGAAeATtuddxBQkRA7CiJAFJAQEGpAR
AQpAXYsELwGXHDQEJpFVCJpRFhGFXsYm9MOAs23IoBgRyCBEgGgmhBWEoRgSQBYc
g16Y8r10FfUg9fLbzJQkVAfBccgnhLsRWAiQ7lAgFkCJKJAXGffIFsNH4d19AD8K
SrAXddJUWU6bqy9l658rujUXNKTRNkdfUBQBgEA7CsXZSsJUMWFFrScW7TaTvnFW
9ctl4lCf)ERskHGfW91DrZIV(x793tekb4(vdwbyqf3dBXJyADwG5y4XaUAFUibs
ZrRBLcEegxrd2xwRUCKzoA5CkIQxFiCcptFAAUKLOUQXIlOQuBGCZCOA4D4wAIjU
Iav36eSdBoxXEFltT392lVc)nkaMGgDAAEIgQBCMiVRMeNc9h4(eG4B(vmc8QGOZ
54yRTNJglJpN9O0l8A4E(Y98htUR(glyJKkSGCAAjkfmAGQBAU6xFBZkRJIRVAQF
FY5pgVQDBohowaMgrUkiLTKASLUPEt41K5B5WhIqfAuAgbApdp0vhOlKlztejWu4
Q3cdz6lcQqdIcQSIHpscADRgFoQtaHCgCQ2YpeEsEDjAQolIkrxgKiP4AgStE2EZ
bjTAVJwiJAJLRmFYE4h0AYBVBBETsSAAQtMROJD9MGVgAwgLIyMDWWjRV2IqYMCe
AYAQpmQkoMgHuL849YEuPGt8AyAgYtOIeQDyc(nEBQoKAGHCiE6EAZgExYihDoAU
cFApFjCDW5cAcaAiEGBqgXM6IGNfiXzwE7qBQKeA2JIANIAVFBkCgRsLlDSC)ygY
IAArJAmpiiDEAAyHK)CwK5IYbAGERjLARqiPc3lCp(hs2UEAKAdwgXjwYDNcmpCQ
URKAYOLDBBslRw)KIQHgtWBQ7cM(CCQADQOIokKDTnjwXxUaV4IEBMwhB4yFMjgh
v5QgIMAgHCkwBKphoIHDmzxwSIAAhCCNo32CQm9QUejBXRQACc4g4EAVjQMEAq8E
A3jxLdA4SIMPEBboxyyKcs0CbLxwlYKkJGm2CgFfweZAUVCwikAcCIAXDjwY6LEH
UKTUg8QAcMIKGAP5gQUONUFDA5xQoSN8qWrTA31VQF(RSd4hypa1ZAIaGCs0hrLk
d9QDcnBa5AAsNEMhphwZ68qWm2aAo5QgZMEaGCJ6gDYMgaXDYnhq7YI8OAARDWkD
AJ8GoABWg0A9exKcXB1FWTiMoBCDds163QFshWPxDjEZwDOH2Yqhl1AADNACYtcF
h59xFkpAyvRQ6Wl20GmuoVqbb6kBMBhWgyANVNYNCAw2hzbElaGrugwg5yFYOAug
shgc6XBSeKL3GSQVFYFQ0EMRDSnCocJF6XQRLpYgAIMwH04KxpzEVOSCq3rA79aZ
JEwL3SeCFo(Hf)nEkRySSUODAgEm5KLLkvm0dH8lZAAVBGA0gzw9EbLBEpRJuBYM
SMOmAjJ8BAtpAJijx4xgKFgIGE4MjiGEAI6HO)CQgkQcdIQ9mayNZfZMc9GzAopI
KAMMCGHMCAGHAPUBuqAxgkAgTEAsDguQgaoJQwUCYaRYxIMKEEGMiDGbAfOC0LBB
kkYgTACGABuSQZpJww0gZmQwZIIaEEuMCQmPI7oC2QBRpkQkTIC2GB1VwSrJkBwU
gEgoVNIgaDfy1oKs4lWA7bWgJcoKEUBxDXLU6MUYgejhjxgtZMEoBCEyh5c1dndD
XkqLSVVbUr7joiPEgLcHKBdUVCrVHwSJHuoehSLN15sDFD7gQXNQtevCuUgFthmB
ASz6mJqddpGoXDwx1NlYduqAviK6jXt26GimDAibwzOBIYjBY76GdcXDA0ux7rq0
eweoITwt4cAUpSHe3bYrwusrjOHAmJ7(bMAqBAF2bdKggn20lLktBWN0Zz7F0hvb
dK3G8GjBhkdNccbDHske7RLD2dvDIxRrNqVDvWn4D0MmwpMHi8cgT59G4ibnR1TS
ATlMIMXtApBbzidnvuhID1ieeQGBYFjhQK6uDoiva7MZcbLxYrRDbgqtEWt3OEqy
D76otVDRsDT2YPdFrOYDoB(3cKyiwCBsP47NQC96M0rp5AZFOVr1H66BfxAlSsy3
JGoWAA8XYkiAQPQGwwIkAIMQDgdyQSALg8gjO3QA7IkYKEg(jiCBwhgFgKyDP(Qg
aAaglgkmzTpAEJCgYEBooQA0AAGIgipCo4iAgkQvIIIYqJKQD2S(chwA8ITgngEg
pPka6H1Ga(hzYnQBmwQBSrI0BMyQAVI7PYlxJA0A5)jSDQYLIuF2AC4BAspAZh(Q
Ho37BAOm9DoJbJPrwigD4yxtF4z779u3JPR(o7AHCfDPy7)PD0za1)DQ8)7Y4bgK
5DwqRR4gI8jqI8LuOLJItb4(d576IBYemER4f8DEIQQKCJJEGBAiM4T4SBIfI0DO
TAAtGAIhy9J0H0D6yFJOS4LCVAIjHEEbYAIhIAMhgEBOZXR4YEcsYEMfSFMn2AAc
9EsMOUhChIJD0lRkDUIAJbIUEBQAPDIgcxz0eAQS1doQEIRa7ZAgdEKmEoRwdUIQ
zCYqyIQQpw7uqwJDjwD9QIgSQQBSPNIAQEBINVIa)EAAyTA(UN8u9gJk)MM78MEt
9AAH)ME58QEBFBAJwQEL(QAaWVI6eNIQMZISQcIg5UAaMRMwLZIgPRQM8BAQFEIA
WRI(QQEo(YAyPRAXeRMsQACYPZAmwEAQNYIS)RhukRI2LlJGedYsLlJRORQCCYAS
mUECOdAG9YK85UI6nRAbZRE7YJIL5YET2RA8eNoy3cIa9QEq4YE4IUA6sRESuZE1
JZM9wZM)(UKZKREq3BAbRcAhKdCYnfAT9d0cHRYgybExsB46eVMV1dBSkLBp4Usg
mVI6kZMcOJINDFIAYRA6cAAsDUAE(FJOORMulREu6BIgEWAaEaEhWRJV2YM8GZM2
WZM82cMEGdMAPeMEmUI7GZMcKiMQMWI7TQMpehc05hE4HhEqeRIGgWIcKVA7wHAT
OZwsepMGepMKlYA2kSMSgaIdxZIhQgEC)pESURA9DcAgGGIA9xD7PZC8RZMTSCAx
TaM5xlETWeIbEmEfWlElAkkqepMAbEAAtRI6BAIUOpMW8WEWOoMX)SEowFDzoBAO
baA(NyMHWCIh)VoAHaIQ9hEjOpM(QQAwOZIQ3kEG2UI6WNAwWxs4OPIaWNAvW1sG
OPIYWNAtW1sSOPIWWNArW1seOPIUWNApW1sqOPISWNAnY1s2PNAbLRIb2NAB2xs4
GxM(R3MCSfIbTTIb21MTG1MWX3MaYfIbZTIb21MrG1Mud3MyefIbfTIb2RMvi7EE
ODAdRHIdUHIdXHIdaHIddHIdLFIde9MT8)EW4)Ed6)El1)Et9)MZ()Mx))MxA8Mx
()Ux))ExwUA7LJIcdPIdaPIdXPIdUPIdRPIde1KReBNePAFiLAVpNAVxOwc5JAd)
RAV9SAV9IAV5QAdlRAd9ODV9RNABbCISUVA7PVA6MlE3PRA63hM5sfK0YR4qMcIh
4FASKcAg)FIAvtEPUqBzxRErXuBPKCNbNCI79ZAh3aASpAQIM)bJvdCZ1iMHAgEF
jIFsifYP9tERBmUUIBADxEIC3MdhMdYTRVAgTYMzWZU6LlsSIAATK5MGGQMvBhMQ
LZa9QEATelMoXWKSIQFVYcAgrQAz(8Z1YJdlBpMPFZcnHZUjwNVRJRF7GRdpLdMA
tlcPHQN7PRAamNC70BQAPRAyoJE))cAqLVtk6VNrzQAcXBFaoUN8cZIVOTEuOx8a
vWZwAIUCK0BwdFMieAYqCBItCBIuroJsY3Lfy05kUYNmqlLfSBYvMYB8ObNssdwO
j2JkYAATLADIBoMeicFW11RevdVZ4ddfMcVDrdFoCUYBJUIykBIAOEAggRgQP0OA
gGQA1sa0AIEAyQIZQpMlsAQDqhzBXiSAqUVAqACEEIUqB9RDSdACoictGglyylhU
ABQTATq0GgebFkEgFCBoKUhQ0hSWJQUAKA)UALEplkFJiBAUGgUIBopAa1MECESM
KktKbtEeQuHQP9h681KqA3hAoAEBTqEpFBYwywm1aDZHVpihpkUAMgkCRBDUFQYw
9zXvTBkYFYi5rkjwzyC0e)(8QbhvxjkIhNEATs4mM62L5Y2gAkqC8MVlkIQ0FDmF
gMkQ0mSmuU6RQvGwhJaeVm4zbtbKdDQCAHgSQbHq8SgGLH1pFpkhhgm1eQ4BglHG
kGgxqhhBDgaCAIJoCUnggpBVNCYAcUKAAgHF6wRbVIMdGoUhZpBAYGJQEoIL95jQ
L7Oe()7bHvv5wbiP)840KIw)CEEUAkwkFQAQADLXcPRCEYxrgAgqiMeBRCEwQBCN
8ZRpvQrP6CelR6iEMRUTTEwAmEY8HQBumGHWqZ2fNmAgJILagn4JFMSuZCKCDY5o
gkikcaiLnUEEqiXiCBYJgOhsuVIEuCo0AYjQYIArTABuwsiBMsKuiyWDNw4qhLIc
DODCCMPSD4iyyAYDBMoEIAlBDECMwAzEOKQ4GHj7uhgADjek7rW2JOLDRvoE4VFA
C068yYG4jiKooCJEQ3nEfgQ4oZJEFdQBRkp0rlCj7AkuCjwmBYaCGOoY2JFgXDou
A6iYLGYRAorWQGVQCYuIIG8GSKQhCFGkoGlEKDMd45hQEFxzBGgecFlFmYX45AEA
HIBIgFIEAp5HTCSchr3Mx(BSqrhgcK(0JuoApR0Ye5IJAHDREFQNZASAhA6FkBIW
YhkysGAlAipciQLZGIOeA5CHEgULWEg1QNgg4EAx5mhebIJZVmFIYgpXSGRpZiVF
KEVkXCagOimRI0Ag3iAAoj62AoQFYYiJmITRYlivQMAgBACCABABtlOYAgBEWSAg
BCgJe86ptGAAAbUuQQAAsDIKg2AqrCombayx8Sw6qthBpaEURV5mFlhp6H1nAUcG
miuUQQBhiGGSaFlhRcb((gVORZCnAguDgWmX)ee0hydAWd5oFgO0AdgGUWIuhuHx
3EArdbkbeEF8yz3jzmuyNnxzccfOJFNd13xN)QlRSXHfjm5GrTccBUE6oodBGFoX
9)sivReg17nLvXi1LLXhuuw6Fxn9FK(ZnWY0EoJGnuma7ZOeVAawvFazIMHRfhiI
3c)cBwz7prBCEQBXAGH80fj9A0goAQAbPcRKCSLbDJecS0OQ8LIAcJa9cjeuFKdu
4DzDFjDb(6YOUeIBgTOVKVOXObSRAZQBD4QQdinPChjPQF(DxSBoAC9c5gnYI3jC
iagh09XIKEKiGCcghJcDoUWDW4RIEKgQVCAmtCHIKzMCAPgWQ3q1oBo4CkOIABn5
xzswgMHAmDQS5AIiNAAJjhZdwAtAA30BWYJwohS6KKj9TTibAo5GgxyBoJBoMAlA
LigCxoBWYWgBSdIEkcIaDKwtUzqMA0(GzCyhsUYSKOJvnwoUgRQFElhgbpQkTKBW
AoSOBV0JUlSBGhQoTIACEAlpSAU3BQAAyMhDQlAoRCKINiOC06XqwBRCVMRYAYA2
AChCo2XDh1tA28RSfRYwEIAhFjS(hr2esH(DLNFA0cQ8AKJFCgPZoNhG8ESBwCwN
QIKthifvorugogFgd7I4I4QCKCGYT4laskNB7aTxvpYWcOnhPQb5x2gOy7hTGkxM
)AsSgkXwRSN)UCfASc6JK0sycSDNBCwDBp0OUa0kGExs6QYbRPdhHXCfQbKEgb3o
aZYUZAJOUj5pwRAk5hEJUaj52lkwYQm9JE)KQA1JMeqiU0po7MMvAEIdwVwEE9(P
jeqSdlcwGEkkDQqugAJAufq6xIoASIKnPjXCA8gHWlpA4BgwjCIPTBIIDTNAlmGA
O0TSDkIUVoEWASxeqhcfIldpemBJ6IFsWEs)Hb3vJL(IAu3xixUK3MlGFETGgGkM
A6NzglJoEUMQGEwTARAAgMAAMEAQ7TLwCAURAB6EwxSBkxQAhQAAIEMECAFSAw5E
AmSBkxQQaMAMGAM1BB8NQAoDMECBqiQgSIAPFCgkhhEKoSlCuWhgsUIgMECgDghY
gpcGgOjhw1QIcMIiHCk5hjtOIjnDCAyABhYIQIKEEgjhBIhIIhUiUKhYlQIqJGoL
kgNTQBfBU6kAgSIoCQpYMFLloYfBQGaIGgq0HD8QDKohAxBdt14JAZCgTBIE0QKR
AxwjYNvVAOlgURgAxNpuKCABCCmFIDCJcpSUcMOIaoQKFhU(CgUEEXhiuYq5JFjh
NQrlgwQJoATAoEg8SS2oVhMxEUdgKUbYJ9U4Sos8WKpnbClLHRneVQHAaAwzlI(e
sWTnQUPbAiikg6m5pasYBYMsjBLIEu2Gw2cCgvECloInPnwAzAqqgiBPIhBKk8M4
vIUYoHHUIR(pIi6zt4lsUFwYZMAIOLjjFQZQIQwiRXhUqcgUv2lNkhWk65xj1MJw
)iqAAAK2ACiNgZQDcGwAAYwx7gM4EAIwhCCTYKgjQCAKAEdMVEAoBAAahQXGbIGb
B45OyEIArFuWSNMYc8IAABHA4xeMaDiC2n049vpsWgH7gg9(eVIGtJebkoOeBxj2
QTkiLkQEYMIIGCIFRAYPgCAk9y940efEc0S2KB2EFqQAKRgRHCQsVAqLFhPmKhvC
gBBAz8RgJBQYDKnZLzgQYV4FUkCQFYK0tQA4AG1NC9WsUUgcMHAYCcreAGkijeJa
IDLAUolBKkAEnvPRLELdgDkXgaFDJReAeC4XPL7LIiRpFCA54AlhsRhbZMja6SJ3
SX4QcBBAzERvjUA8LAOaqXoKFNmShW0hMCYchuiM7rnB0nF1PCZ8IdOvCcPkA6qk
cesk8qp6Le71oBQgaPCgAgUxBILNAbkBRmyCIAAQKEKTLAsVHK36gTgBJDgrQAAJ
HhGICZ2PkaEgQIoIjcGgPbsViyqRs9)FisCBWDASXI6tE6W0Fo7Ks8FgTU)IlUsa
AIjZQcE1fxaAj5e2DowD27Ls998uPq2KW)Yl52h3vH8B8FSkfAhsoBBFj8eRZCYo
5DAB(yFufkl7)7(eCjhIRI5ZJ8nhisA(4ka9VqPgmzzve97chVISB0Doc3LPJUwA
BfCgGB4MP2LyG1r6BUAeY9DTIxB2GVI(NXIiMQYiNXIlMQYkNXInMQYmfXApgVw(
m4D(h7DIVZIy1FIAdXAUefK4gfC(xWIazWwYrZzoXE4A(UIBQ8jMYEAUQFElVAIY
V9TMXQ4a0vLOzG4gGB4EzGIiZ4zOTvLOat7GGBIKatLMCBIMMUJCYCwSHtKMdXAY
0VASAM6wIXISOkIY1UAw7EI3gXg8ApA65EQAUlApk9DMLYAAvFD0)c64zfC)cQ5A
)UI9zWAbF9zMzCAbEg7YPLMVKB4IA4D9DQEQdUIaWSEWeUwakSE(bUIakRE(PVJU
GlLLHWEMcQwamVA8PWw4Ul7AXmLEUm7OVq4SRm7aFw7AOcIgDnDovZ4gGzDUea4w
gm7(ja5eKEyO4dCgUFIEULMm2)zEn97giHEWo9zgLZM21HBW)37WmF0QdbE(FMBS
5OASF0o85NISLOsycJ4OSeMQbExk4dEdkKAD5FIA2MEV4cEhcdM7hcBGelYysLZo
MIJuaDAgMwA8PLBwtAIy89TECBIMLgQUdyAYEPJcDPBUzhI4NZAw7mo4ApA2LAQM
KwACjRBQ2ZJWIIBs7CIMbCCc0VJWMRJu03Q(LBAsu5g6KB4I0CIK72oiI4oEupDy
4KgyyJwmCcqW1dKSFBg2QIAQ(NIeGUISAQA60AAEuWIUBkCAGBIBxSAOzmCJWhCN
ctMKUoM4kNI(kgJwJHABwCwQklKLBDA0Rew(NBii3BARTsMKFgikieBqNpAM2fkE
Y37ea37mcTxAl)7a43T6hbwUkB4c7LAYkExWEIMXMYEjHcBYkSMQMqAWQYRGNzLm
z3MFnz4GBMASsZDUfdceQJwQYBICaCIccbbM6AIjIogSYhLGg7MAH0EaY3MeZDIf
bbDBd3ExI4MbNdDoNBAhIB4CyCAgHojSKrLSj)ISkXILaDABc7MZn7MnldBLe5EE
LAogt7syjPBTv3Mha7MVy3EvC1M3Z5Eg7BgAg50m7xDObWLU8AgmvfimK9IGhqMC
DsKl0sKKF5wetUIQ4(gSgTIhDUAy4BB8MQAyLDdlKAIbNcZHmUT3XJIqEEAAdVIe
VwB2GBZ)VcIWv1ZLVQAavFYBaUAcRFVtMWIgZUK(UEFMuZYngEdsoFQBJQhcXAaY
HIYTGHteaElsTEd9hVYfbINEqIVrXEYBlJdkqINubIVJdUYVfRYrbIl0MLd5hUq(
ZJVrVWAggEQDC0mKggWkbflgoHgtbKeBLQ4qU5zGgAFyjPIiUpDGit0BDAoxrrYH
keC2W84qjoWHlKRaskWS0YVPmySqSc5Q8kdhiOVO40prsLUHiQZK1KJiZRDASs61
TADAADMMDgAZDAgjsgCKLGCEYlSia0kLbOGEBIQmbyGMGCUMYKbHAjpgEIEN1lQA
gQsrFKyEQlRACxhoIgOMghggyAhjHMgI3sBh5iIDOXyAAQFh9GjGXpG(ea1rrx3U
ilF5PdYa10hYjqaKh(VxyxNQh7YxMo9IiT7lz1OPBQR7IVB4zKUB9elRR5VJ3BZX
6ayL4WgXSCscONDjNw2KolHwpE6q9Pji0FlTYG6oWW9GnSNOjBBLDFqQfs8VuvAv
NsR2hARZEQVx4(OUSwh943r5Psq5k4hn9auUKJiolXZyJKDCgYuwkgKZ5RaiIKKc
vSuNcr4OD9SWsLS)NO67KzAPeHXFmA)2RzloWasJRzFamFQFm0UWSTCkfY85nRZJ
PFBS9CLlpqlkBkRLgEDICQSqJDqABIpXCoJAgJFJTuilLBWC4TSiBkk0IRnxxOzA
NBCHoT0VlmSEKIHmUAAjCCkMJiyMhIJRgjgIKkhAAAOQJIxK5AIICAIQSrDkECIA
wY4EB4QQ0DJxSKCBGSMK4CAPcIZgEgKJUEEiEEURAIATA84IgjCBsnggIKEsILBA
J9IAEgByQUoCECGqp6ALUtwIuv6pCcqOOCCIIq6SAIB4HKokECPgAU8SpKpJISMZ
gzgTwlNFKD(wQIAN2VJs0moeJbXEBgyW77MCx11LKTjBopTo(8UgByv(4Noxhn0e
XoXgf9gSM5KHa39Jl0u1Yzcn4GfRk1yCCQizmmWX7Dx34c(ciUSkDKa2umD7d4Hl
IlhS5rzhXSC2ExaJoloZRmqN(s1meihrZlcXA6lohqtFmqoWbWZsayQkA6jxgmnN
Tb92HeUzXluCsgKIOEOEAJwM00yIkhEsKDEDGWBgJpgEKVAIgAEAiNjiOQEwIAAH
BZQwgAhbCgCCECKMIqcAIRA4gVqQCxhBEIEmpmCWA4IohAJ5SOBANCAMgC4E8kNp
BgiSOECjEASC4ASGKctwT2MF89wM2jQk4LFplnCw3EPbGufQbZ72h2X2AYX3ioPJ
(jzdAAdVAA89zIqXt8ncWntt3qzoK5Q3YHizNAYQPsKB4YuGS0h7OL0vOnjl0eIf
NW(dCfA60XJ0ub0rgvDuj(xPET34LAS6h4Mxdi8j4DwQcclMycnIBUocHQfJIIeB
xfASME3xPBJ6iAFQJTTD4JTJEMAEUUB0IgAlCLTJNSj56shQCNAiJKE2FCHvhi3r
4p1QADeJSIwYtUYODagIEmQ5IbUCsiYnbL4B3JCvEB9cBwEQsFgBaDQRBAUABAIK
NkpsqqYbUQAAJdhcMEIUAAxlQhgCYIAAJmQAWIAgAABBgACIweZBCogAZEAMGIMH
CgoRIwdGkSEgQ6A4AAMiBCiAhAABwkAEGAwgvWL0A0QhWCqAFqllx5drHs1y7hV4
uWExrip2ShuNcv7Fh(aBhtAzFjUvj6YvYt1hCCI7MUKgLCeTgCBVI4SEsdcImKYC
BKX(ZrDFpz2KC1Fj3sxII4MDumtQm23h7QBld8ijYhgoWOtEXIm5AKABwezAm0wy
vUocJgVjAK2JAKkEaDwARgcadGIgAzp7mE8IWsitpJggqAAGICF0KQkCAhZCokjg
B0AACMKmABSpQxSIUIgigKg4sAEANABLjDsCoicA2IBKIGoaCMt(FjHThSZL4xBD
U4BNKpEcqq9VlaCfIUbonTEQJy5QCIsRGCCyBOfQC(XmmSAoCYByCkgMCQ5da2qH
QwCaKoIQEQB5NidzKUJUWSohFLgo4gGMQBNwAxlQAX4Wz8EwDoAUDIEFAhTpAaTI
YJVgM0AIFgedRVhIAompYDnGX7FaJGIgMUrwEgoGZJvBUugiIPQY)wOIZq4JgBFS
EYVsokBUGgAUMYKYEhSFRp4A0gEAKsFICROyAE8iDQNSVPIsKJDAIFYsuaBst3Gs
bAWBMrwUz)J9bhemXBSN2oLyFIpUjv1wKAlyuaNHFDQFhKGAUJWgAJBACYAgAECQ
V425oYjENAmrNg9iiaJNs24gLEycQoAWQVrt1pYtOsVnWC0CoW(rYWQLchAQ7eBM
EA4FbjKCadu3WIBAhtCwaF7S4bhvgpRtwZiQxCeYQYruqBWGbkVYuJ8i(kAgPVMw
WBSOAJgsNfrwmXQbmOwgdAiUwVLD8OkiohWgJsFIiQCyjxADScWGwFAFwQTb))Fw
GDsAAZrPR5vKQ5ACb8JOZxaLBsYLiggJeSxFhVY70r9qwaput1u1gSDH2dNZwccW
PYshmvjzVB(GN4cyQzybrI2yZcxirgcEM7hA3gAgOvMYbOYjnpc(CaJ2YB9AeDgq
4EoiyaDFAgcpMmtoC1agLxx404ihgFEw4DCDFTxrwQAdS1NQObPFsDeGr(6XnSUA
Y88dXxKIICUJUQcCNmrAE0CQHgAUAIG1AjXhxAtNCZKAOIBIDcIMOqmDDg5BOasA
kkDg21AACMGmHAE0xAFGWqpYI2BGyMLaMIAnDkdLAkKDSMCRZuIspEiIPgJSgaHC
AysCRGgg2AMUrFPlCRsAQUZA1bEw0AQPgXAOAmM3UDgJ0TFiQQhAjcHyLGNViRDp
P9QF(syFdB4gVIKNAHADBy5LMgHctmAg5SEufEzdTQLMYCCFq9j0QABEasBaDCA9
THjygAQb6rhAIeHEyDaKgCoW0SlCiVALM8gTNICKFBFIaATKEVk8AmggQTAi1BWl
gIImAdQB46SR)tIwy2rI6BEqgSkG0yliVQwsUnLA17woWs(a4DaHaLDgERB7fAAQ
BPSzAgpL8r0B1QAH3CIAu7hYAeFwPDD8)hbeVOv6JAyABdQLZMfFQm3cNlefUvzZ
U452BsyqQDgp9etOwevHrD4UAxS7RLTBn7pTSC)Mlz3Hz55iddCzn508neuQLMlH
fqD1A4RvbOLXDaqgUIsHX3HIB65vANGsMTV9DuOgiFIT4AEWCXWBBgnBDDqBhTAN
6oQTMug4jrt)iAL5gIAAgIAAkKMABicqhL1UEo0iBVBIIgCmfBoOFiGBFCPHGOUe
BCtVASVABgoVAg2XFAfG5iAaFg(BAn1cBgnNni8XADnVBAoNAwKD6gGHsGzhYipC
6q2fAjlZHoGrEQ4BxCELBAAZGgPeASKEAjldBxVErw3DpIafoKA5AuKECCAVMKcr
uiocABlEAQLDATcDAhwCXSDDwQ5ApItppIuwHgLapAMT3CBDxg8AlCWBCvXeCTJD
AKQ5ACEVFoE(DDlODDlMDBlNviIOAikUCCVbACcADiANbSXODj8B0QVPDBLBDTNP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(QMVPEpjCogX3QEB7lOIwiPh5mgBBDN
LVJwS78VdT1OjgANBDKkLGzlxFnuKVuMv7yyjQG5a48cCmHE4xrVbWK2f7itNkGm
dgiIoXHOZxMVk7i58PGNcZoJtDihnTgBTQKiCT)Ux5yrKn40IkCVCfWniYIkR2w5
2P1Jt3n9zRoFeTm0a8JU0f7OTcV3IR0zbw4Jz3gMjGslZo22SBlzWKbqjCHQiNLD
OymMi98A7jijIPq0arTjhuMAwo8MN6AUuKqL0djCmOimwoO1)ayDuKE6KbJD8kkk
aYTOGS6QoKJaUvbj3wEAoYsyd7wAjKC9CPDDO4GWrIy3z2QbJwEAC3pCwCHWbh2(
CwK0wQbKcsoJp8msEAmv5YkbKgF2SOYLNi820q2MVTUaQBsGNYxwNMyKqxRtioIQ
iCiiAmCCPNL2IR4FnoggiCqiasYgRHMcizAE3szrjAs0MLIBBTpuKwk4CMD8ys16
EnppwMrW6ZHkjiyghhGQKuDME4w0QqOokayIopkZiNNrJIAaiibPDEDDCNYOyQzo
EHN7jQw587I60wOmCTSJpoGciaRin(bc2qjLMBxoFGkQooVbUUoQXAhGeHChPMCg
4IdOd3wAigBUiBRBHEAyoBEH1OiQBBg7hrFiNMmG4QElV01NsIEpeHjpYLDEzQQp
yM9AJOYFFjnDJ1IyQBElo0FWoIjLXW1L(MMydyIESzygKiFxYDKiTJGly5eOY1g4
OwyKyxx3lGAgmRECS6IGjLXO0nt1MMkeUbVNJKWDJI3GhfnYkfdlKZ5rpUeejPKZ
uLYWNKsSLgaM11VGuMT2UdTMDtXHYh(NkarSDolluLTLMsmQAquN728aNYtOY3tb
OnOAil(KCUSAsaliwATrsEIBM6KwNGa(qg1wfTjSMOISAxVOiSYaXUTyTVY3E0xR
VoQDnsqIiApjQiCClIAyHIyDdaWYCrp7SiDI6IIR4yYESOCKtrpjKsfSpimaaqWK
NbCKjjzgyKIDH41Y3BMEZCYvD1G2n(pOGlGAAUk55m4)5YPnytxXEsAucBSKjK69
eS2N5rW5rxHLIcxGFCgCABtFwKjBQ1VwZQIgEAAxCBpLFYPDkEhvvEIcGhU8dKH0
hgINJjSBKrOAtBbpfAOAhRFKoflCCbhwpWIkAAAAAAAAAAAAAAAAAAAAAAAAAAAA
AkH6
-- 
Doug Reeder                                   USENET: ...!tektronix!reed!reeder
from ARPA: tektronix!reed!reeder@berkeley.EDU BITNET: reeder@reed.BITNET
7th: Each swallow works hard to be perfect pilot-provider-builder-trainer-
teacher-lover-mate,no half-true hate!   - Dr.Brommer's 18-in-1 Pure Castile Soap

ART100@psuvm.psu.edu (Andy Tefft) (11/29/90)

This is not a binary but I thought it might be useful for people
to see what this program does before downloading it. It is
*very slow* - took about 3 hours on my //c - and it doesn't
print anything except for the occasional "SMASH!" on the screen
(There were 8 of these in the 2 hours I paid attention). The program
ends by writing an output file like the following:

seeds: 0 0 -8286 -27406
                         SYSTEM  CHARACTERISTICS
Mass of central star (in solar masses): 1.21
Luminosity of central star (relative to the sun):  2.51
Total main sequence lifetime (in million yrs):   4824.979
Current age of stellar system (in million yrs):   2530.437
Radius of habitable ecosphere (AU): 1.585
Planet #1:
   Distance from primary star (in A.U.):   0.339
   Eccentricity of orbit: 0.015
   Mass (in Earth masses):   0.044
   Equatorial radius (in Km):     2290.9
   Density (in g/cc):  5.269
   Escape Velocity (in km/sec):  3.93
   Smallest molecular weight retained: 51.36
   Surface acceleration (in cm/sec2): 337.36
   Surface Gravity (in Earth gees):  0.34
   Boiling point of water (celcius): -273.0
   Surface Pressure (in atmospheres): 0.000
   Surface temperature (Celcius): 317.01
   Hydrosphere percentage:   0.00
   Cloud cover percentage:   0.00
   Ice cover percentage:   0.00
   Axial tilt (in degrees): 16
   Planetary albedo: 0.084
   Length of year (in days):   65.40
   Length of day (in hours):   26.09
Planet #2:
   Distance from primary star (in A.U.):   0.512
   Eccentricity of orbit: 0.138
   Mass (in Earth masses):   0.611
   Equatorial radius (in Km):     5451.8
   Density (in g/cc):  5.380
   Escape Velocity (in km/sec):  9.45
   Smallest molecular weight retained:  8.88
   Surface acceleration (in cm/sec2): 819.76
   Surface Gravity (in Earth gees):  0.84
   Boiling point of water (celcius): -273.0
   Surface Pressure (in atmospheres): 0.000
   Surface temperature (Celcius): 209.52
   Hydrosphere percentage:   0.00
   Cloud cover percentage:   0.00
   Ice cover percentage:   0.00
   Axial tilt (in degrees): 15
   Planetary albedo: 0.063
   Length of year (in days):  121.56
   Length of day (in hours):   16.74
Planet #3:
   Distance from primary star (in A.U.):   0.933
   Eccentricity of orbit: 0.015
   Mass (in Earth masses):   1.379
   Equatorial radius (in Km):     7108.2
   Density (in g/cc):  5.478
   Escape Velocity (in km/sec): 12.44
   Smallest molecular weight retained:  5.13
   Surface acceleration (in cm/sec2): 1088.32
   Surface Gravity (in Earth gees):  1.11
   Boiling point of water (celcius): 307.9
   Surface Pressure (in atmospheres): 127.130     RUNAWAY GREENHOUSE EFFECT
   Surface temperature (Celcius): 535.74
   Hydrosphere percentage:   0.00
   Cloud cover percentage: 100.00
   Ice cover percentage:   0.00
   Axial tilt (in degrees): 18
   Planetary albedo: 0.463
   Length of year (in days):  298.85
   Length of day (in hours):   14.53
Planet #4:
   Distance from primary star (in A.U.):   1.057
   Eccentricity of orbit: 0.004
   Mass (in Earth masses):   0.238
   Equatorial radius (in Km):     3994.8
   Density (in g/cc):  5.317
   Escape Velocity (in km/sec):  6.89
   Smallest molecular weight retained: 16.74
   Surface acceleration (in cm/sec2): 593.64
   Surface Gravity (in Earth gees):  0.61
   Boiling point of water (celcius): 153.4
   Surface Pressure (in atmospheres): 5.447     RUNAWAY GREENHOUSE EFFECT
   Surface temperature (Celcius): 98.03
   Hydrosphere percentage: 100.00
   Cloud cover percentage: 100.00
   Ice cover percentage:   0.00
   Axial tilt (in degrees): 33
   Planetary albedo: 0.428
   Length of year (in days):  360.72
   Length of day (in hours):   19.67
Planet #5:
   Distance from primary star (in A.U.):   1.591
   Eccentricity of orbit: 0.104
   Mass (in Earth masses):   0.241
   Equatorial radius (in Km):     4014.1
   Density (in g/cc):  5.318
   Escape Velocity (in km/sec):  6.92
   Smallest molecular weight retained: 16.57
   Surface acceleration (in cm/sec2): 596.59
   Surface Gravity (in Earth gees):  0.61
   Boiling point of water (celcius): 31.8
   Surface Pressure (in atmospheres): 0.048
   Surface temperature (Celcius): 7.37
   Hydrosphere percentage:  35.98
   Cloud cover percentage:  14.27
   Ice cover percentage:   4.42
   Axial tilt (in degrees): 24
   Planetary albedo: 0.178
   Length of year (in days):  665.84
   Length of day (in hours):   19.62
Planet #6:
   Distance from primary star (in A.U.):   1.949
   Eccentricity of orbit: 0.027
   Mass (in Earth masses):   0.420
   Equatorial radius (in Km):     4821.8
   Density (in g/cc):  5.350
   Escape Velocity (in km/sec):  8.34
   Smallest molecular weight retained: 11.42
   Surface acceleration (in cm/sec2): 721.01
   Surface Gravity (in Earth gees):  0.73
   Boiling point of water (celcius): 55.7
   Surface Pressure (in atmospheres): 0.161
   Surface temperature (Celcius): -47.69
   Hydrosphere percentage:   0.00
   Cloud cover percentage:   0.44
   Ice cover percentage:  71.52
   Axial tilt (in degrees): 35
   Planetary albedo: 0.523
   Length of year (in days):  902.56
   Length of day (in hours):   17.85
Planet #7:
Gas giant...
   Distance from primary star (in A.U.):   3.036
   Eccentricity of orbit: 0.222
   Mass (in Earth masses):  19.638
   Equatorial radius (in Km):    26653.6
   Density (in g/cc):  1.480
   Escape Velocity (in km/sec): 24.24
   Smallest molecular weight retained:  1.35
   Surface acceleration (in cm/sec2): 1102.36
   Axial tilt (in degrees): 19
   Planetary albedo: 0.494
   Length of year (in days): 1755.48
   Length of day (in hours):   12.31
Planet #8:
Gas giant...
   Distance from primary star (in A.U.):   5.365
   Eccentricity of orbit: 0.082
   Mass (in Earth masses): 1554.897
   Equatorial radius (in Km):   100026.8
   Density (in g/cc):  2.217
   Escape Velocity (in km/sec): 111.35
   Smallest molecular weight retained:  0.06
   Surface acceleration (in cm/sec2): 6197.38
   Axial tilt (in degrees): 27
   Planetary albedo: 0.533
   Length of year (in days): 4115.07
   Length of day (in hours):    5.19
Planet #9:
Gas giant...
   Distance from primary star (in A.U.):   8.323
   Eccentricity of orbit: 0.049
   Mass (in Earth masses): 171.368
   Equatorial radius (in Km):    54533.3
   Density (in g/cc):  1.508
   Escape Velocity (in km/sec): 50.06
   Smallest molecular weight retained:  0.32
   Surface acceleration (in cm/sec2): 2297.97
   Axial tilt (in degrees): 27
   Planetary albedo: 0.500
   Length of year (in days): 7966.06
   Length of day (in hours):    8.53
Planet #10:
Gas giant...
   Distance from primary star (in A.U.):  14.509
   Eccentricity of orbit: 0.095
   Mass (in Earth masses): 398.455
   Equatorial radius (in Km):    73055.9
   Density (in g/cc):  1.458
   Escape Velocity (in km/sec): 65.95
   Smallest molecular weight retained:  0.18
   Surface acceleration (in cm/sec2): 2977.20
   Axial tilt (in degrees): 42
   Planetary albedo: 0.470
   Length of year (in days): 18329.13
   Length of day (in hours):    7.49
Planet #11:
Gas giant...
   Distance from primary star (in A.U.):  23.804
   Eccentricity of orbit: 0.013
   Mass (in Earth masses):   0.689
   Equatorial radius (in Km):    11908.7
   Density (in g/cc):  0.582
   Escape Velocity (in km/sec):  6.79
   Smallest molecular weight retained: 17.21
   Surface acceleration (in cm/sec2): 193.62
   Axial tilt (in degrees): 29
   Planetary albedo: 0.464
   Length of year (in days): 38535.03
   Length of day (in hours):   29.37
Planet #12:
Gas giant...
   Distance from primary star (in A.U.):  36.999
   Eccentricity of orbit: 0.027
   Mass (in Earth masses):   4.243
   Equatorial radius (in Km):    20997.0
   Density (in g/cc):  0.654
   Escape Velocity (in km/sec): 12.70
   Smallest molecular weight retained:  4.93
   Surface acceleration (in cm/sec2): 383.78
   Axial tilt (in degrees): 47
   Planetary albedo: 0.488
   Length of year (in days): 74674.47
   Length of day (in hours):   20.86
Planet #13:
   Distance from primary star (in A.U.):  51.906
   Eccentricity of orbit: 0.104
   Mass (in Earth masses):   0.058
   Equatorial radius (in Km):     3347.5
   Density (in g/cc):  2.203
   Escape Velocity (in km/sec):  3.71
   Smallest molecular weight retained: 57.53
   Surface acceleration (in cm/sec2): 206.10
   Surface Gravity (in Earth gees):  0.21
   Boiling point of water (celcius): -74.5
   Surface Pressure (in atmospheres): 0.000
   Surface temperature (Celcius): -226.10
   Hydrosphere percentage:   0.00
   Cloud cover percentage:   0.00
   Ice cover percentage:   0.05
   Axial tilt (in degrees): 49
   Planetary albedo: 0.141
   Length of year (in days): 124083.89
   Length of day (in hours):   33.38