Table 5. Sample output. 

 Example i»POBLt^' 



COMPUTATIONS OF wAVf TRANSMISSION THROUGH A POROUS BREAfC^ATfR 



NUM OF WAVE CONDITIONS is 



NUM OF MATEHIALSs 3 



NUM OF hORIZonTIAl LAYERs= S 



STRUCTURE HEIGHT (")= fe.OOfl 



»«ATER depth t"ij= U.flOO 

 KINEMATIC ViSCOSlTV CM2/3tC)e .OOOOOO'Sfl 



BW TOP -lOTH (M)3 2,5?0 



TANB of FRONT SLOPE" .6670 

 RUNUP COEf'Fir IEnTs as ^feQ2 ga ,5nu 



Material cha9acte'<!Stics (MtKi »rmop material number n 



MATERI»L« 1 DIAMETER Ch^* 

 materials 5 DIAMETER (m^b 

 MATeRI*L= i OIAMfcTtR (M)t 



.7?<» POROSlTTa ,370 

 .J38 PORnSITVs ,i70 

 ,0<>2 POHOSITVs ,370 



HORIZONTIAL LAYER CHARACTERISTICS 



(MAKE Layer next to SEAdFi; layer numrer i) 



MATERIALS 1 2 5 



HORIZONtIAL layers 1 THTCHNfss (M)s i.550 LENGTHS (M)b a,-? J.fl b,a 



HORIZONTIAL LAYERS 2 TM|ChneSS (M), ,rflo L^Nt;THS (M), a, 5 ?.5 0,0 



HORIZONTIAL LAYE"" 3 ThjCHNESS CM), .u70 leNGTHS (M)- 5,, o.O 0,0 



Hf M) 



.100 



.500 



1.000 



1.500 



1.7?0 



2.000 



.100 



.500 



1.000 



1.500 



1.750 



2.000 



.too 



.500 

 1.000 

 1.500 

 1.750 

 2.000 



T(SEC) 



5,00 



5.00 



5.00 



5.00 



5.00 



5.00 



10.00 



10.00 



10.00 



in. 00 

 10.00 

 10.00 

 20.00 



2n,00 

 20.00 

 20.00 

 20.00 

 20.00 



H/(G*T*T) 

 .oooanH 

 ,no20ul 

 .00U0A2 

 ,0061?2 

 .OOTlaJ 



.ooeui 



.000102 

 .000510 

 ,0010?0 

 .0015^1 

 .001 Tfl6 

 «0020Ul 

 ,0000?6 

 ,000l?8 

 ,0012^5 

 •0U03A3 

 •0004U6 

 ,0005i0 



H/L 

 .005 

 .016 

 .033 

 .050 

 .058 

 .066 

 .001 

 .007 

 .015 

 .022 

 .026 

 .030 

 .000 

 .003 

 .007 

 .011 

 .012 

 .014 



0/ 



(G»T«T/) 

 .0196 

 .01<)6 

 ,01<»6 

 .0196 

 .0196 

 .0196 

 .00<19 

 .00<'9 

 .00«9 

 .00''9 



,ooa9 



,0009 

 .0012 

 .0012 

 .0012 

 .0012 

 • 0012 

 .0012 



KTT 



.391 



.211 



. 1U9 



.129 



.121 



.113 



.397 



.199 



.155 



,099 



.088 



,080 



.379 



.184 



.125 



.096 



.086 



.080 



KTn 



0.000 



0.000 



0.000 



.036 



.0fl6 



.125 



O.OfiO 



O.OOO 



O.Ono 



.115 



.159 



.193 



0.000 



0.000 



.010 



.150 

 .196 

 ,2?7 



KT 

 .391 

 .211 



.lov 



• IS-* 

 .1U8 

 .168 

 .397 

 .199 



.nb 



,152 



.l«2 

 .209 

 .379 

 .184 

 .125 

 .182 

 .21« 



.2ai 



KR 



.26 



.28 



.28 



.27 



.27 



.26 



.51 



.60 



.62 



.64 



.64 



.64 



.53 



.66 



.70 



.71 



.72 



.72 



HT(M1 

 .039 

 .105 

 . 149 

 .201 

 .260 

 .337 

 .040 

 .099 

 .135 

 .?28 

 .318 

 ,418 

 ,038 

 .092 

 .125 

 .273 

 .37^ 

 .481 



KTT • WAVE TRANSMISSION THRnUGH THf STRUCTURE 



KTO • "AVE TRANSMlSblON BV nVFRTOPPING COEFFICIENT 



KT • TOTAL *AYE TkANSMlSSInN COEFFICIENT 



KR • hAVE REFLECTION COEFFICIENT 



HT o TRANSMITTED wAVE heIUhT 



16 



