\]¥ N¨ÉÎÁSEÔL±L²ÌD±D²DEÃRAD¨DEG¨RADIAÎDEGREÅÙAÎMÏDÁYÒËÔT±T²LSÔR±R²RÁHÁÅALÔAÚÂMJÄJÄJ±J²J³J´JµYEAÒ@ @ @  !"#$%&'(** HORIZON CALCULATOR›** COPYRIGHT (C) 12/78› ** R.Grokett,Jr.›"›(€9@,*-?tS ,Ž-@W)Wx.##@@K:2(-@@"‚$6€8,-‚( <000,31,59,90,120,151,181,212,243,273,304,334›\ Ad** CALCULATE LST **›h0@@@jARn2*("}Input Month,Day,Year(ie.12,7,78)2‘’“x6¨-“%A} A0Œ6‚-€8‘,%’–00((UNIVERSAL TIME (UT) of Event (Hr.,Min)˜ –—š6•-–%+—'@`,œ))(!Input your Longitude (Deg,Min.) (JAX, FL = 81, 39.74¢ ( …†¤6‡-…%+†'@`,È--6˜-”%+?W$‚,%+@'$•,&+‡'@,Ò˜!@$6˜-˜&@$,** CAL. ALT & AZIM **›6-'(Input R.A. of Object (Hr,Min)-™š;6›-™%+š'@`,@ 6œ-˜&›J6œ-œ$@T((( }Input your Latitude (Deg,Min)^(JAX, FL = 30, 19.75` …†c6‡-…%+†'@`,h/)(!Declination of Object (Deg,Min)/ˆ‰m6Š-ˆ%+‰'@`,""** CONVERT ALL TO RADIANS **›š 6œ-œ$¤ 6‡-‡$® 6Š-Š$Â$$6-+G:Š,$G:‡,,%+E:Š,$E:‡,$E:œ,,Ì!!6-D:'M:@&#@,,Ö 6ž-à$$6-+G:Š,&G:‡,$G:,,'+E:‡,$E:,,ê? 56Ÿ-@’p%D:M:@&#@,',? Aô!!6Ÿ-D:M:@&#@,',X** CONVERT BACK TO DEG›b 6ž-ž$Žl 6Ÿ-Ÿ$Žv N:œ,"@ 6Ÿ-A`&Ÿ¼** PRINT OUT **›Æ0@@@Ê##(}** HORIZON COORDINATES **Ì(DATE: ’‘“%AÎ6•-P:•$A,'AÐ(UT= • HR'sÚ<<(Altitude of object= P:ž$A,'A Deg.ä;;(Azimuth of Object= P:Ÿ$A,'A Deg.  Aè** START **›ò0@@@ôAR@÷..(&}** HORIZON COORDINATES CALCULATOR **ü%%(1. Cal. Altitude & Azimuth%%(2. Cal. Angle of Rising Oject''(3. Cal. Angle of Setting ObjectL(Input one of above.V.)@ƒ.ƒ @I)ƒ!@QA`ƒ"@IAjƒ"@Q6„-@°* CAL. ANGLE *›±AR²B0@@@B( }Input your Latitude (Deg,Min)´(JAX,FL. is 30, 19.75¶ ( …†¸6‡-…%+†'@`,º1+(#Input Object's Declination (D,M)1ˆ‰¿6Š-ˆ%+‰'@`,Ä 6‡-‡$Î 6Š-Š$Ø6-G:Š,'E:‡,â!!6-D:'M:@&#@,,ì 6-$Žö.N:,"6@$6-O:,%@. A6-@&  „"@ 6-O:,%A€>>(Object's Azmuth Angle= P:$A,'A DEG.Ü** AGAIN **›áAR@æ(Another calculation?ë)@ƒðƒ"@‰%úƒ"@x A  AÐARÚ +ä¸ ÊÕÌÉÁΠÄÁٛ 6ƒ-P:+@$¨,'@,Ì 6 -+Ag$¨,&ƒ%@0Ö 6¡- &Bg‰‡%?Pà 6¢-¡%C@ê 6£-¢&CAP ô 6•-£'Be%þ ##6¤-Cd„T$•%? )$•#@ 6¥-¤'A6 6¥-¥%@d`e` 6¦-¥'@$& 6§-¦&P:¦,0 6”-§$@$: $€ D:HORIZON.BAS