The URL can be used to link to this page

Home My WebLink AboutTract Map 3883 Lot 98 Preliminary Soil & Foundation 6u!Jaau!6u3 3HOHS3)1V' BbI~lg? Cil SJaaUr6U3 I!^!::J 6u!IInsuo::J n~'L800-EO 'ON 4~a~0~d EOO<:: '5 q~~leW 500-<::80-616 'N'd'V 'VJ 'leTn~ailla~ 'E88E 4~le~~ '86 40~ a~uap~sa~ AT~illle8 aT6u~s pasodo~d a4lepdn 4~oda~ T~OS ~leU~ill~Ta~d :4~a~qns <::v5<::6 VJ 'leTn~ailla~ a4ua~~0~ letle~ vL1<::E <::v9v-09S (606) ~~~~apo~ a~~w .~W :4ua~TJ (Id-600-<::0 'N"d) <::00<:: '1 AleW pa4lea 4~oda~ ~Sleill04~0~ ~~leW -~w ~08 4~oda~ UO~4lepun08 ~ T~OS ~Bu~ill~Ta~d :;a~ !uaillaT4uaD "'>I~1'.:rapo~ '.:rW '.:rauMo A4~ado~d Mau aq4 .:ro; pa.:rBda~d SBM uBtd 6U~PB~6 as~~a~d pa4lepdn UB 'UO~4~PPle UI . SUleTd asnoq ;0 uo~s~./\.a.:r pUle A4.:rado~d ;0 d1'qs.:rauMo u~ a6uleq~ 04 anp 4.:roda.:r ST~OS TleU~6~.:r0 .:rno a4lepdn 04 pa4le4~SSa~au SB~ Ma~./\.a~ .:rno ;0 aso~nd aq~ "uo~4~adsu~ TBnS~./\. a4~s 4ua~a.:r B pa~o;.:rad pUle .:rap TO; aT~; qo~ '4.:roda.:r T~oS pa~ua.:ra;a.:r a./\.oqB aq4 paMa~./\.a.:r Sleq 6u~.:raau~6ua a.:roqsa~B'1 '4sanba.:r .:rnoA .:rad -S6U~400; pBa.:rds uO~4ua./\.uo~ q4~M , (S.:rOOT; pas~B.:r ;0 pea4SU~) .:rOOT; apB.:r6-uo-qBTs a4a~~uo~ B sasodo.:rd u6~sap Mau a~ "UO~4Bpuno; asnoq aq4 04 aq TT~M pasodo.:rd sa6uBq~ U1'eill aq~ "pauuBtd Teu~6~.:ro SB sU~leilla.:r aillaq~s a6BU~B~P pUB UO~4B~Ot pBd 6u~PT1'na 'a41's S~q4 .:ro; pasodo.:rd a.:rB UO~4e~./\.ap 6U1'PB.:r6 .:ro~eill ON au06.:rapun pa4e~1'Pu~ a4~s .:rno -paq.:rn4s~pun pau~eilla.:r pue sa6ueq~ Aue 40U a./\.eq sa.:rn4ea; .:ro/pue a~e;~ns puno.:r6 aq4 4eq4 'EOO<:: .:reaA ;0 ~en.:rqa8 6u~~np pa~o;.:rad u01'4~adsu~ .r r r- s4~oda~ "~~ad p~~~o ~o/~{,r~ ~~ ZivLS j } fgi ~,\" ;>~~i NWN8 8~OHS8 ',; <? ;--c;:','),(pa:;:j';l-]i ns ATTn;4~adsa~ .. ,,'r)~,"h . q: ..."'<('lI$S3:l0,oU.....q- = li L ""-~ -=..s,wu9;J:ua./\.uo~ .:rnoA 4e a~~;;o S~q4 4~e4UO~ aseaTd '~0~4sanb .:raq40 Aue~.:re a.:raq4 ;I "''', , . .,;,.,,;~;.Y -paq~e44e s1' ;0 4noAeT ped pue asnoq Mau aq4 6U~MOqs ueTd 6u~pe.:r6 pa4epdn UV "4UailldoTa./\.ap pauueTd aq4 04U~ pa4e~0~0~u~ aq PTnoqs pue p~Te./\. U~leilla.J: 4.:roda~ pa~ua.J:a;a.J: a./\.oqe aq4 u~ pa4uasa.:rd se suo~4epuaillillo~a.:r pue suo~snT~uo~ 's6u~pu~; aq4 4eq4 4uailla6pn~ Aill s~ 4~ 'uo~4~adsu~ a4~s pue Ma~Aa~ 4.J:oda.:r .:rno uo pasea \ LB6l-vvl (606) :XV::I . E ~6l-vvl (606) . LB9l6 V,;) 'a~el uOAue::J . peol:! uOAue::J peoJI!el:! 8-0l9 ~E :1: .,' I.; " , 'i .,'. ...... .,:' . .. " ~"..,'. , . c. _ .~, { ~ D,) ~ ~ ~ ~",., ---r O~....I ~ ' @ .~ 11 ~ ~~g:~;; ~.~,~ ~~n~~ ";- "'8~&:~ bz.. :i ~~",t:(4 5~E~'~ o " :<I' " ~.:~. e"'........s o. . ~o~~ 0' 0 .. :00.,,'" _". .'0'; g....:: "':-I".l!: .....,... >i.....- .0 ~..o tlI 0 0...0 ><r"X o III ,z: ""...", "'... ,"ZVI "'~tl...oa zt>l>e of::<loE: ~~~ .... ~.i ~,~ 0.. I ;- ~'- .' , . 0 0 Pl.,,- I>IC:: .0' . ~ c- :U<n'" 0 . . . - . . 0 ~ ~ :" o . o ~ ".. F ~ ~ .. .' ~) ; 4~~1q: ~ 1~, c lL-__~ ~ I' 0> Of k r , 111 . h O. ~" ~"-r/''', o ,.", ~ V. c ,;" . I I ~ N , , ' ~ " ' , , ~ I fl lIT ~I ~ ~ ; (~: . /"t ~ . f ' ~ i rI C :---'iv, ' ~ lJl: (~'.; '1- f' - - '.( r~ I ~ f "0 f ~ ~ . i ~ . :i"?1U') ~ .,./..n~W'W) ~l\(' t., ,-~ ~ -' ~;.I Cl,ns, ~I\-:' ~;,+' ". l! ~ Q' '. 10 ~ 11~ --Jl!. t~Q\ iiq , ~ ,( ~:~ // / , o . l '/ , ~I I I " , , ~ !, s NZO'SA'I'OG... L.1: 2"',~1' ~ r .C ~ . . < , o ~ F '" 6 ~ ~ ~ ~.. Q.~~ ~!' I: i I \\. -- ~-~--./ /, Ll2.0'58'I'''!:... ~) ~"_l'7~.OO' -- ;:>'''' -, . L$;E l,l~ f~S -'iT:;~~ ~~ ~~~ ~)fp,~ ,"l... F'" "". '-" ~ <;:. ~ f"l!: ?;; * <Ii rii E.~rP ~ P f ; . ,::i. c: , I; ~-~, !.. I !I' ], ---+-- ~~ "\'....\ -:f \ <;'C'\ \0 , 'e':l- --.J __ \ 'l'0...rJ . '-.. "'''"''if.' ,,-,;,,- V.,>-' / !\", '\ ~ ~"/ ~ 1:; '-"-':" ~"'- ,....--;:=-_ ..-1/ 'E, ! I__,_,~ ;:---,.......---...- r I~ I ! "', ,_ ~ . ! , " E~ I ," r'--' ~ ,( I ;; , , "' b. I"I",>~' 1'", t; " .r:- u':' ~ ~ II 0\- .. --;; ~ ~ e ~ , ('> ~ ~ ~~ , 81 · ~ go N....:; i ~li! ~ a -~ ~ ~ l:l ~:l ~:~~o I ~'g~ "'>-I ",,,,' ",. or, "'tlll<l.... 2:.:::",,"l Pl. >-Ietl ;::jPl";;' ....t"r'l..~ ~!:!;:a<l> ~ ~~~~~ 4~F. ili :o:"';;;>,~ !i: Pl">-IS'" , VI po:: ::J~tl5";'1 I "I" >: ~~~ ~ I c~ >(0 ;;!:s I"lI'H'H"" lr:l;r ~~~e ;g~ nPl !!!!!!!! H o . Z '"iOO " iila 7>-1 -< 0< -< V. :00", '" ~ ~~ ~o '=' '=' C t"'" ""f""'" ~~ ~ ~ ;;;~~~~ ~~::::>;5: -00"3<1> .. ' > . s~a~ ."~. . J;;nliii ~~Cl~ ~~~~ .~. ~~~ .~ ~~ ~ ~ ~ I ::l~S :aoi .. 00. '" i!~~ .q~ 8~n ~&;~ ~ ~ ~~ II ~" v '&illlw 'O:\\"F.-t. LEAtI\ Fran - - ....;"'-- .sAI'\Cl~ 14',* 4z.;......., .... .:;;-:' , tqc'f"Ci>>ur> " /----'-J:IU.~ 'olou.4le~F - - - -""-. 1\~'Z..i!>" ~-- E:n',.'i ", t'" - "l't.....oJ \".Ul'[fH,v " " " &LE ~ ;;;I~~ o .' . . - .. B. ~S , ~~ ~:Ii 'N . :::~ R ON ~ o > ::c s:: m r ::j > Q ::c o r m r'l> . ~' ~ ! ~ I ~ c o c ~ . ~ ~ ~ \l " ~ . < ~ ~ s Z . " > " . , ~ ~ ~ z ~ . ~ . ~ \ II \ fl' ~~ I \ "- &' K " -i, I i ." ~):'j~l ,,'<it !-!;j ;:!':; i'}il;' ",j., ",', """1' :""1' al; , iI)'I' .,,1' I ;:Ii'l' ::"'j" H!!j:~ ';':1 i .,~ ',,, " : ~;, j . M M . , ~ . . i . . . . ~ , , i LI" ~ . ; , . . . . 1 " g c , n , . e , . . . c o . , G' ~ ~ ~ " 0 ., ~ ~ ,. ~ 1 . " n " I " ~ ~ . , m ~ . <; . n o . ; . o r Z ~ m . ,m '>' 'H ,,,n .1 ~i ~.z l<i " : ~ ~1 '. <, !:.ii F- ~~ ~ii ~i ] ; , I o i . B . . i " , . l' ~ ~ . g~'~~ BQ g~ ~~ ~~ ~glf R~ ~ ~ '" "<, g jl 1:. ~!!: ~;a s.;; 5;J" b Q '" ~~ 00 ~G 5~ -3 ~~ ~~~3 ~~ ~.il H g~ ~~ ~~ ;. _~:~ ~~ ~~ ~a :g 9.: ;~ ~~ ~ R:! ~[l gi ',~ .. ~ ". .. 3"" il !!. 0 !1:i. ~. .. is" 11:" ... ;:;: a - g'~ ~ 5' In ~ 'g~ ;;~ ~~ "~.d g .. s :~ oC> OS" '!!; ~_ 1<...~ 3 5~~ "'~',n~ 200 i:= s-;: ;;; 3", [ ~..o a~ z' ~l? ~:~,. & H " ;;;~; ~~ i~ ~ n "I 'l'l ~ ~ :i il" u ~ ~-< ~ '!2." '!l ~ lo , " ." , ""'0 _ & ~ 3~ ~ i'i~!; 9- ~!!l~;" _ 2 ".. 1i s a~ ii" ii ",.~ ::- ii ~ n ".. _ !I!.' ~ '" ! .. .. Ii ~& ~ ~ ~~ ~ ~:~ l!! ~ .. 3.... ~ "!!,. l ~::r'" li iii '" ~~! ~ ~ ~fi ~ ~li ~~ ~ <fi & ~'" OJ <i 1:5 i g8'" 19 ~ ~ ~ ~ ~ ~ ~ ~l ~ !!.p ~~ - !!. ~~ ! ~~.. ~ ~:~,,~ 5 : e ':'.. n -.:; !'. '5l i: i~ '1- ,,; (; ~:8.. !!. i( e ~ ,,'" ~ .. -< 3 "'" .. - .!l' ~ ~ ,. a ~ ~-.. i S" ~ & ~ ,,1:.1 2.~ ...,. e__ "",!' "! -i1 ~ ~ 'l;l ~!!l g;. '~I !!. ~ ~ j ~:~ ;~. """.. .. - ~ g !q Il- ~ ~~ I ~ ~ ~ ~il1 f~ : ! ; i i ~ !;l ~ " . 1 ~ " . o o 9;[ ii~ !!e .... ~ ~ ~~ ~ ;:i: " i ~ ; ~ ~ ~ ~~ ?; ~g : e~ Q ..:( ~ a : , I : l , " " , . . ~ oS . , , , . . > " !! 2 . . , . 3 --,*-- ~ !l g ~ i f " " N " H .ill! < ! ; ~. , . [ , , ! ~ ! ! , , , I . 5"l<' .' ~; ~~ " ~ ~ H .' ., " 0' "" 0' !~ ;j'.. ~~ , ~ [ , ~ ! ~ ;; !mHH '" ~~ ~ ~ n ~~~ s~~~ 3 ~~ I!:;.i;;: 5 '518 !! '=l;; ~ ~'H ~ ~ ~ g ~ Q; ~ ~~ ~ " ""- ...".. ~ ~ i g 8 ~ g e ~!L~ ~~~i : ~ g .. '" ii@ iP" ~Oi~ ;~; ~n ;;s d~ *~; ~;e ~H B~ '~~i ~~j ~; ~ ': ~ ~ mm g ii'l~ !'. '" '" " o ~.i~~O h~3~ '6~~n s......!l l~:~: ~ iO' ~:I '! '" ~,;li: :i!. oS" ~.; g '7 ~ l s ~~i }Hi: =aii"!5 ~il!i ~"r~ ~ ~8.,.. !~ a",!i:s ,.> ~d'~~ ~.Jl~ ~. ~3..~~ ;~~~~ ~6.~OO n 5".. -~~g~ gg.~<:! 0; ,-. ,,"'0 ~ ~~ Hi ~!~ 'I" · " , ~ ~ ~~~ 308 6~:' r~ ;;; !loZ ~:: ~..;> ~ ~ ~ ~!\! ~ 0' fl_ i ~ g 11.[ "s~ ~~~ ~~~ .' -'f::R i~ " i~n!!,n ~o< =U5q3~~;[.I' ~~~g:E~ ~" ="","li:""-ii~i; !~~!~3 ~2 1~~o~lo~.; """'!'~~ ig <:!~~12&~~~= :; ~"'" 1; "i~i6~ 3!~ id;;i~ h :!tis.~:~[i~ ti ~IU -:::" f'is:~~~~l~' .3:i!~.il is ..2~~E',"~~n: ~=o;; ~~ ~:~~~Dig~3.g ,j.,1 -I "... !,,~ ",' 0: ~o !.I ="" ",:!,,,,.' - [~~"~ 3~ ~~~~~rr;~!~ ",,' ~_ ,_ .~~i,,~..-25 ~-.~~ ~ ,,~~~~~. ~~ 3~~~ ~~ ~lug= '=j' ".~;~ ,! -'1"'" · ~~~oo ~ 3~"'~i"-~~~ ~~~~~ ~; ~g~=;;;!ao !~_a: ~.. flg~~~~:30~ ic~~::r ,,~-~"'o-l". ,,-~il ~ ~a~~o ~3~ ;;~_{ . ~~,_",,;>Ri~5~ n!5~- ; !_-~~_"I~R ~i~~j , ~;!l!l~l. s~p g ~t~~~Il&~6 ~_~~ -s.i.iI"" 'Ii...-~ ,lJI' t I'.!'!'" ~~'7~~ & Q~~g:o~s9 ~~"5i a g~S~&~~:-" ~~1~. '51 sBi5;i-~~ ~~~~~ g :~~~fl;~g~ ~",aa~ 5 ~~~2~~ga~ " ~ " ~~ 2.aij; ~@ &~3 ~ =0 iiI-"-" !!& ::i~h H S-~~~ .. ~92";;! !, "-a : ....l." ~:;, ~~~~ g~' ~ & ~ :: i ~ '-~g ~ =; ,,2..; fI i'm~ 5 ~ ~ ~~ !i!. ~~~ s! ;~il ;;~ "~~ ",a .t!o_ ;'i ~~.~ '" '10 ~ ~ I! .. ".... ;; Ii ~s-~i ~ ~ S.& 0 "f:' "8~ Ii ~l[ . ~ !( l'; ~ ~ !,.=, i ~q ~ o ...n- , " ==1 -- -< o "U ..., o ::c ~r-m -I ::cOO 1'1 s:: -1iij ~ mCDm n reo,... c - ." r -I-I::c ]> >?J]> Oc.>CJ -00- ~ :Coo Z ~ OW(j) ~ r- ""0 ~ m r- z )> ~ Z ~ , c . r <j < o . ^ " r g 'i' \\~ ?-A . . ~ g ~f~~~ . j~ I Q. .." ^~ " ~ ~ j ~ , i!' .ll~ ;;:>r D ~ 0 - . ~ 8 - ~ ~ ;r 00 - -" . !Hi ~;: ! "g rJ. '0 : ~ ~ i ~. !! 1 - , l" . , 1 ~ n ~ i ~ o ; ~ . [i~, 5':g :~3 g~!. ~ s.ia: 21"~ ~f:! .,. g 2.!!- 1; ~~ , N. t: " , ~~ .. ., e. g. ,0 ~i ~ . ,- ?:~ , , D " s.~ "!'il :::~:~r:~. ~ ., !;~h ":'!ii:il~l ::'::i1 ~\1i ;~\ :'iii'; ~ ~. , s l f ," ;d o. ? , ~ o , ~ I . . , l ~ i ~ " o f . ! ~~! ..' g !:~ .0. ~ ~ "" o-=.l ~~~ o~o. :!.i ~gi ;i~ :.. ~ i ~~ ~ Fl ~2. .. .0 !l ;~ >~ ~: !.~ -. ~ol .. ~~~}> t;Ji g~il~ i~i~ ii~ii~ 0'. r!!; ~! ~! -e.l;;~ i ~~~- ~" ,,-0 . " ~ o;."'.::r ~~~Q 8~ i~ g,s.og.~ all~ n...oil ~ S E:.~, ". ~g:;~ <e.~gi: i"8 ~~ ~ ~,~ j q fl . ~ . e , . . 1 . . . ;; o , o . i J ! . " o ~ I I ~ , = . I , . o ! . > j' >~ ~ gg-:? "J> ~.E'" ~ '" ~~~ ~1 i: ~::' ~; : I ': ,: _. 0 ~ J ~~5' ~!: ::r... "u .. "'- ~ " i g 3' ~ "- ~:1- ~.~ "I a.!!;, :3, g n.3' ~n :;'~-i'~-< ~ l[~ i' ~i 003" " j~a: ~ -g!P i ~ g,,,, ~'3'".5' 3 .. J" ~ ~ ~'l~g~g -< "'3 I 3 g,:~'g ~i ~g~g9~ ,,:l cO; . " ;<o.c" i; ~ ~g"a. s. 5,g~ii -<:1'."..... " ;; 'H '. , !:i ~.. !~ ~ ~€!i ~;3 "5'!!!: !'ij ~~l 9;'5t", ~ a.~ i: i ~.~~' ~i~ ~'o; ~ ~ ~ ~ :3~ ~ "n,," ij'3 ; . . ~;! ~ , ii' '" ih-; . i g 2, .. 35 ~ l ~ . o . . ~ !~ ~o~'Q i~ ill! :>_u lO: i~" ~.. rl "of! '"12. "~,,,'" Ii !~~~~ ~ ~ ~ 3 a'i 0." ~"~,, ,,~. !!. ~_;:i i,ii' =g,!'i Cl.C1 5'.;!" f~ ~~i~. g g ~ ~~.~ if gin ~ g-o;; a. :: ~ 5 ~ :i ~ 52 ~ .. ;;-D" " ::rali: % ~~i i ~ ~! 2. :;: ~ 0 " " 3 ~i::;: .... :: lll! 3 ?-~ ;. ,..;-i ~i ~. ". , a 5.R i~~ '00 <p ~o.g ~,~. ~ ies-' t_~~ "C<;t ! !-; :>''''l!l !i1:i,,, - . ;~~ ~ f: ~ ~ ~ 5 ;;~3 -00 E~:: . ,,~ "-$""--" ~ _ 0 ~~L: ~ ;~~ ~_i!~.;; ~;~~ ,d Z5 :. a.~~ 3~: :i I;-;::r ~~.~ ~ iil i Q~ 2. ~ i.3 3n iDo..." ig~ i!~J o~: ~~~g' g", rln"" -g!,,:l !!!.ll n l jzl ~ i~" i.~-~ i ~i~' l~~ ~ ;~ "! ~ ~ i a~, " _ _ 0. ~" ! [2 i ~~ 1:; % [ o~ g-~ i .. ~, ~!o ~~ ~~~ ;;~ ~ ~ g J~- .., .. ~ il'l . . !I~ 2 [;; ~ u* 0< 0 ir; ~ ~ ~ ~-~,~ i;; .:i"~ n, iiO 0' . li ~~ n i:i i'~ ~~ I! :!a ~~ ~~ ii " ..i>:Eio ~ !!l i~ti !!i.J ~ ~ a if ili.~ S~:!3 i-~!i ~ a ~ ~ ~ogg c"-e :.~~- "",,-D" .. ~". 10 iai09; fIll " ,!J~!~~ ~I~~I!~ ~~::=~~ r'l.. 0 ~ " ~ 21 ~l~iB~~~ ::r '" :I 0. ~ :mm i:~i5.~i !'~~j~~ ~ ":~ ~ R:i 33..=n'l.. ;_~ ~i~ ~ r:~l;i gf~~:5' HHH g 5 ~ g 5 a ~ ~3 og. :~ ,. ;. 2.'" /" 3E- ." -. o. !~ l . ~ , ~ . , ~ , , o ~ ~ ~ '" . ~ a ::: 3J li :an 3 I~ ~ :::; ~ i;!!. !! - - , ~:i ; ~r !!. il ,.- .. 0 [~ i ,g: "- ~ . g ~ . 0 .. ~ ~ * : ~ i ~ - . : I " ~ ..c...> ~ i;- ~~ ;; 2 ..' ~ ; ~~; ~ ""j'g ~l:.: &:d~ ~.~ l: [8:: o ~'g ~ l c:~~. Qg~~ ~i Si': ~.~ l~ :::- a 0; ~i~i ; ~ i5-~ ~ '2:l 2 ~g;i, l;~i ""..- ~ ~2 l ~ ~ ~ i :--..,..,n. g~ ;; .. .. a a ,,,,,.,"~..' ; ~, " z $ o - .. ~ ~s M z~ ~ g~ "0 o. ~::J Z> ::2 :;:2 ;::-: ~. .. , " !; . " C o ;; " . ~ ~ .; " .,~, -:\-............... .!.~;.;r:~~ ~- it::riFliiii c~c~cccc ~g' ;i~~;~ ,; ~~:~:: ~~ !i~ ~;;;,:;; ~:: ~ 2~~2 :",'fi,,"- 0" -! -!:; - ~ '~""'''' " "'Ii)" -0,.:;.....- -- ~i:;";)o ;~3~ _.0' '.~' ~,,~~~;~~ a ~6 ;.;~~~ "" 1> r".. _ Q ~F ~r-~C :; z ~t"l :z =1 ;;1' ::I;: o o. e 20 . Z " " " o ;, 1 I I ~ " 'i Z ~ , t , ~ r " " ~ . . , o z , I ~ ~ ~ " \~, " , ; ~ ! "',I )"1 r!~';,: :i~ i:j;)~- ::;,f 1- / I I I I ! I , ! I I I I i I I I I I I I I I .,. PRELIMINARY SOIL AND FOUNDATION INVESTIGATION REPORT LOT 98 OF TRACT 3883 A.P.N. 919-082-005 SOUTHERLY SIDE OF CARMELITA CIRCLE CITY OF TEMECULA CALIFORNIA .EQ.!L MR. MARK TORTOMASI PROJECT NO. 02-009.PI DATED MAY 1. 2002 Lakeshore Engineering ~ I. I I I I I I I I I I I II I I I I I I .'- . LAKESHORE Engineering Consulting Civil Engineers May 1, 2002 Project No: 02-009.PI Client: Mr. ,Mark Tortomasi 24426 Rovendale Murrieta, CA 92562 (909) 262-6622 Subject: preliminary Soil and Foundation (Geotechnical) Report Proposed Single Family Home Construction Lot 98 of Tract 3883 Carmelita Circle, Temecula, CA. A.P.N. 919-082-005 INTRODUCTION This report presents our finding and conclusion of a preliminary soil and foundation investigation for the proposed construction of a single family home to be located at the subject property. The purpose of this preliminary site investigation was to a) determine and evaluate the subsurface soil conditions at the site and b) provide pertinent earthwork/grading and foundation design recommendations for the proposed development. This site investigation included the following scope of work: 1) Performed three exploratory backhoe trenches within the proposed building pad and driveway areas to determine subsurface soil conditions and also to recover representative soil samples for laboratory testing (Appendix A) . 2) Laboratory testing of a representative soil sample to determine the soil properties (Appendix B) . 3) Engineering analyses for foundation design and necessary earthwork preparation and the preparation of this report. PROPOSED CONSTRUCTION/DEVELOPMENT The proposed building will be located towards the front of the lot adjacent to the street. The lot surface in general slope downwards from front to rear (north to south), and gradually levels out towards the rear 1/3 of the lot. The natural pitch is about 3 1/2:1 (H:V). A two story single family home is planned for construction on the subject lot. Proposed construction will likely be a custom designed, up~er scale home of about 3,000+ square feet of living space. Except for a lower level rear room planned for a slab-on-grade floor, the entire house is designed to be supported on raised floors. Retaining walls in the order of 2-8 feet will be required to support a level backfill and concrete slab driveway. 31520-8 Railroad Canyon Road. Canyon Lake, CA 92587. (909) 244-2913. FAX: (909) 244-2987 ~ I. LOCATION MAP 1 1 , IVI5T"'- \?'jo'">' O;~1 - , 1 I , , '. '" ,~ '0 ," ,0 " ~~ " 1 1i ~~ ;-- \, \~ \ C-AN{()N 1 1 !lil 1 1 I Off'IRE CllffK ~.. 1 1 I I 1 1 I LAKESHORE Engineering SINGLE FAMILY CONSTRUCTION LOTS 98 TR. 3883 CARMEL ITA CIRCLE FOR MARK TORTOMASI , , I CONSULTING CIVIL ENGINEERS Project No: 02-009.PI 'Dafe 5/~02 I ~N 5 (,f o :2 -5 Agure No: 1 I- I I I I I I I I II I I I I I I I I I ! i , , i i I. ~.. i SINGLE FAMILY CONSTRUCTION LOTS 98 TR. 3883 CARMEL ITA CIRCLE FOR MARK TORTOMASI RIVERSIDE COUNTY CAUFORNIA G::>: BASE MAP: state of California, Special Studies Zone OffICial Map 1980 on Base Map of USGS 7.5 min. Peachanaa Oll~rl~nnla _ 107':1: FIGURE 2 I I I I I !I I I I I I I I I I I I I I May 1, 2002 Project No: 02-009.PI Page Two SITE DESCRIPTI9N The subject property located in the community of Meadowview, in the city of Temecula, consist of a 1/2 acre size lot, fronting Carmelita Circle to the north and surrounded by single family homes on all three sides. It is almost rectangular in shape except for the rear property line which is askew (slanted). It measures 120 feet fronting the street and average about 200 feet deep. General terrain in the area consist of undulating gentle sloping hills and valleys, with slopes pitched at about a 3:1 (H:V) or flatter. The subject property is a downslope lot, with slope beginning at the right-of-way property line. The down slope continues for 2/3 of the lot and then levels off with a shallow gully crossing the lot'in the east-west direction. Maximum relief from the street curb to natural gully flowline is ,about 25 feet. The subject lot is unimproved natural ground at the time of our site investigation. Groundcover consist of annual grass and no rock outcrops and/or wells were noted onsite. The surface contours in general are smooth and uniform and no erosion were observed on the property. Drainage is by surface sheetflow from front to back into the natural gully. SUBSURFACE CONDITIONS Three exploratory backhoe pits were conducted on the site to determine the subsurface soil profile. Based on our exploratory efforts, the site is mantle with a thin layer of topsoil (2-4 feet) underlain by weathered decomposed granitic sands (residuum). Thin layer seams of cemented Sandstone and Siltstone, (Puaba Formation) seams begin to sho~ at about 6+ feet. The topsoil consist of a thin layer of approximately 2 feet along the high ground adjacent to the street and becomes thicker in depth 4 feet as the location approaches the rear gully area. Topsoil consist of a loose and damp, light brown, Silty SAND with lesser amount of Sandy SILT. The natural residuum is dense, lack visible voids and damp to slightly moist. No water seepage and/or clays were not encountered. Generally, the upper soil is considered LOW in expansion potential, Lakeshore Engineering 1 I, I I I ! I I I I I I , II I , I I I I I I I I I May 1, 2002 Project No: 02-009.PI Page Three GENERAL GEOLOGY AND SITE SEISMICITY The subject lot do not fall within any designated special study zone. It is located about 5 kilometers from the Elsinore-Wildomar fault line envelope. The 1997 Uniform Building Code has assigned the Elsinore fault as a Type "B" fault. The shallow bedrock (Puaba Formation as mapped in the area) under the property may be considered a favorable attribute. However, research is on going in the seismic field. Based on Uniform Building Code (UBC 1997 edition), the site is located about 5 kilometers from a known area of high regional seismicity (Map Figure 16-2). As such, the following data based on known or assumed parameters a~ ,outlined in the tables under Section 16; Vo~ume 11; '97 UBC, are presented below: Seismic Zone (UBC Figure 16-2) --;-------------- Zone 4 Seismic Zone Factor "Z" (UBC Table 16-I) ___u__ 0.40 Seismic Source Type(UBC Table 16-U) ----------- B Soil Profile Type (UBC'Table 16-J) uu_________ Sd Seismic Coefficient "Ca" (UBC Table 16-Q) _u___ 0.44Na Seismic Coefficient "Cv" (UBC Table 16-R) uun 0.64Nv Near Source Factor "Na" (UBC Table 16-S) ------- 1.0 Near Source Factor "Nv" (UBC Table 16 -T) - - - - - - - 1.2 The above values are considered applicable to this study site and may be used in conjunction with UBC foundation design formulas. SECONDARY AFFECTS Secondary affects of earthquake activity, such as rock falls, landslides and/or. flooding were given consideration, The possibility of any event occurring is considered very small/unlikely. Liquefaction does not appear likely because of the high ground elevation and shallow competent bedrock under this site. .. Lakeshore Engineering ~ I. I I I I I I I I I I I I I I I I I I May 1, 2002 Project No: 02-009.PI Page Four CONCLUSION AND ,RECOMMENDATIONS GENERAL From a soil and foundation engineering standpoint, the site will be suitable for the planned single family residential construction, provided conclusions and recommendations presented in this report are incorporated in the design considerations, project plans and job specifications. ROUGH GRADING AND EARTHWORK Based upon our review of grading plan already prepared for subject properties (xerox reduction copies attached), it is our understanding that site rough grading will be required to provide the following: 1) a lower pad for a rear bonus room below the main house level; 2) suitable subgrade soil for support of building footings; 3) adequate surface gradients for control of water runoff from manufactured pad; and 4) provide access space for construction equipments (to accommodate the installation of foundation and utility systems). After the areas to be rough graded have been stripped and cleared of surface vegetation and roots, the on-site soils will be considered satisfactory for reuse in the construction of engineered fills. Per review of grading plans prepared for the site, a 2:1/H:V cut slope, approximately 15 feet high, is proposed along the northerly side (front side) of the house. The lower manufactured pad will also be about 15 feet below street grade. Retaining walls in the order of 8-9 feet are proposed for support of level driveway backfills in the front of garage. In that regard, backfill of wall u~ing dirt derived from cut slope is anticipated. Removal of loose and/or substandard topsoil is required prior to placing any engineered or structural fill dirt. Depth of loose soil removal will vary with specific location and is to be determined during the actual fill construction. However, based on our exploratory test pits conducted, overexcavation of topsoil from 2 to 5 feet in depth is expected (maybe deeper at location near gully and/or natural flowline towards the rear of lot). Actual depths of overexcavation should be field determined and approved by geologist or engineer at the time of grading operations. Thenatural residuum (dense sand) encountered below the existing topsoil layer is considered competent for support of backfills or to be use for foundation support. Lakeshore Engineering q, I. I I I I I I I I I I I I I I I I I I May 1, 2002 Project No: 02-009.PI Page Five All exposed bottom of grading excavation should first be scarified another 12 inc~es, moisture conditioned to near optimum and densified to at least 90 percent of the maximum laboratory dry density as determined by the A.S.T.M. D1557-78 compaction method. Boulders encountered during grading that are 6 inches in diameter or larger, should not be used in structural fills. Where overexcavation of building pad is determine to be required, the limits of rework should extend at least 4 feet beyond the building footprints. Any surface or subsurface obstructions encountered during grading such as rocks, utility/irrigation lines should be removed from any areas to receive fill. No underground obstructions nor facilities should remain in any structural areas which receive compacted fills, building foundations, concrete slabs and/or pavements. Depress10n and/or cavities (including exploratory trenches) created as a result of the grading obstruction removal, should be properly backfilled with suitable fill materials and compacted under engineering observation and testing. All fills should be densified in conformance with the appropriate grading code but shall be less than 90 percent relative compaction by mechanical means only. EXCAVATING AND RIPPABILITY Rework of on-site soils should not be difficult to accomplish with standard earthmoving equipment such as a D-6 or larger. The walls of temporary construction excavations should stand nearly vertical, provided the total depth does not exceed 5 feet and surficial stability is verified. Shoring of excavation walls or flattening may be required if greater excavation depths are necessary. For deeper cuts, slopes should not be made steeper than 1:1 (H:V). All work associated with trench shoring must conform to the State of California Safety Codes. Native organic free soils may be permitted provided both the backfill and the native materials have a m~n~mum sand equivalent of 30 and the required relative compaction can be achieved. GRADING CONTROL All grading and earthwork including trench backfill should be performed under the observation and testing of the soils consultant or their representative. Sufficient notification prior to stripping and earthwork construction is essential in order that the work be adequately observed and tested. In order for us to provide a written oprnion as to the adequacy of the soil compaction and trench backfill, the entire operation, most importantly at the time of trench backfill, should be performed under our observation and testing. Lakeshore Engineering \0 I. I I I I I I I I I I I I I I I I I II I May 1, 2002 project No: 02-009.PI Page Six PROPOSED SLOPES AND STABILITY Fill slopes ar~ not proposed at this time. Cut slopes are proposed at 15 feet high pitched at 2:1/H:V maximum. The Proposed cut slope planned to be made in pauba Bedrock formation (siltstone and sandstone) is considered grossly stable from deep seated bedrock failure, provided the slope height does not exceed 20 feet in height limit and pitched at no steeper than 2:1/H:V. FOUNDATION DESIGN FOOTING The proposed single family residential development may be supported on conventional spread footings established in competent native soil or founaed entirely on engineered (compacted) fills. These spread footings may be designed for an allowable bearing value of 1500 pounds per square foot. This design value may be increase by one third, if the Structural Engineer takes into consideration short duration structural loading conditions, such as induced by wind and/or seismic forces. For footings bearing on competent native soil, footing depths are expected to be deepen through topsoil and at least 12 inches into competent native subgrade. The depth of footing trenches are anticipated to vary from 3-6 feet below existing grade. For footings planned and founded on a compacted fill dirt (engineered fill) cushion, footing trenches should be at least 18 inches below the lowest adjacent ground surface, for one and/or two story structures. For 3 story/level structural sections, 24 inches deep footing is required. All continuous foundations should be reinforced with at least two no. 5 rebars, one at near the top and one rebar at near bottom and consistent with the recommendations of the ~tructural Engineer or Architect and the guidelines in the U.B.C. SETILEMENT Total settlement due to structural loads should not be a design factor as they should be less than 1/2 inch. Differential settlement should be within tolerable limits (approximately 1/3 inch). LATERAL CAPACITY For design, resistance to lateral loads can be assumed to be provided by friction acting at the based of the foundations and by passive earth pressure and may be combine without reduction. If passive earth pressure is used, it is important that backfill should be placed under engineering observation and testing. Lakeshore Engineering \\ I I I I I I I I I I I I I I I I I I I May 1, 2002 Project No: 02-009.PI Page Seven A coefficient of friction of 0.30 may be used with the dead load forces. An allpwable lateral passive earth pressure of 225 pounds per square foot per foot of depth may be used for the sides of footings poured against undisturbed and/or recompacted soils. The lateral bearing values indicated above are for the total of dead and frequently applied live loads. If the normal code requirements are used for seismic design, the values may be increased by 1/3 for short durations of the loading which include the effect of wind or seismic forces. RETAINING WALLS Per review of grading plan, proposed free standing retaining walls are limited to 8-9 feet supporting level driveway backfills. All retaining wall footing excavations should be inspected by a geologist or engineer to assess whether the subgrade conditions are competent and as anticipated. In the event adverse geological conditions are encountered, appropriate recommendations in the wall structure will be presented. However, for preliminary design, the following guidelines are presented: 1. Where a free standing structure is proposed, a minimum equivalent fluid pressure, for lateral soil loads, of 35 pound per foot may be used for design, provided the backfill is of LOW expansive soils and level backfill. Sloping backfill is not anticipated. If the wall is restrained against free movement (1% of wall height) then the wall should be designed for lateral soil loads approaching the at rest condition. Thus, for restrained conditions, the above value should be increased by 20 pounds per cubic foot for non-expansive granular backfill. In addition, all retaining structures should include the appropriate allowances for any anticipated surcharge loads. 2. An allowable soil bearing pressure of 1500 lbs. per square foot may be used in design for footings imbedded a minimum of 18 inches below the lowest adjacent grade. 3. A friction coefficient of 0.30 between concrete and natural or compacted soil and a passive bearing value of 225 lbs. per square foot per foot of depth may be employed to resist lateral loads. 4. --A uniformly distributed horizontal load equal to one-half the vertical surcharge load should be applied to a wall whenever a surcharge is within a horizontal distance of one-wall height. Lakeshore Engineering \~ I I I I I I I I I I I I I I I I I I I May 1, 2002 Project No: 02-009.PI Page Eight 5. All design pressures assume that sufficient drainage will be provided behind the walls to prevent the build-up of hydrostatic'pressures from surface water infiltration. Adequate drainage may be provided by means of a system of subdrains and/or weep holes with filter material installed behind the walls. The filter material should extend a minimum of 24" horizontally from the back of the wall. 6. Care should be taken when compacting the walls, such that excessive lateral loads are not produced by compacting equipment. CONCRETE SLAB-ON-GRADE FLOORS The onsite native and stockpile soils are granular in nature and considered to be low in expansion,potential. Expansive soil potential should be again reviewed at completion of rough grading operation. Concrete floor slabs may be supported directly on properly prepared subgrade. Pre saturation of subgrade is not required. If a floor covering that could be critically affected by moisture, such as vinyl tile, slabs should be protected by a plastic vapor barrier of six-mil thickness. The sheet should be covered by at least two-inches of sand cushion to prevent punctures and aid in concrete cure. The concrete floor slabs should be reinforced with at least 6" x 6"-#6/#6 welded wire mesh or equivalent bar reinforcing ( no. 4 rebars at 24 inches on center) and installed at mid-height (using chair support). Concrete floor slabs should be at least 4 inches thick nominal. Expansion joint should be kept at 14 feet or less apart in both directions. SITE DRAINAGE Positive drainage should be provided around the perimeter of all structures to minimize water infiltrating into the underlying soils. Finish subgrade adjacent to exterior footings should be sloped down and away to facilitate surface drainage. All drainage should be directed to natural flowline/watercourse via non-erosive devices (swales and ditches) . The homeowner should be made aware of the potential problems which may develop when drainage is altered through construction of retaining walls, patios and pools. Ponding water situation, leaking irTigation systems, overwatering or other conditions which could lead to ground saturation must be avoided. Lakeshore Engineering \'0 Ii!:L " I I I I I I I I I I I I I I I I I I I May 1, 2002 Project No: 02-009.PI Page Nine FOOT~ TRENCH EXCAVATION INSPECTION , All footing excavations should be inspected and approved by the Soils Consultant prior to placement of footing forms, reinforcement, or concrete. Materials generated from excavations should not be spread on slab-on-grade areas, provided they are compacted and tested. GENERAL INFORMATION AND LIMITATIONS This report presents recommendations pertaining to the subject site based on the assumption that the subsurface conditions do not deviate appreciably from those disclosed by our exploratory trenches. In view of the general conditions of the area, the possibility of different local soil conditions cannot be discounted. It is the responsibility of the owner to bring any deviations or unexpected conditions observed during construction to the attention of the consulting engineer. In this way, any required supplemental recommendations can be made with a minimum of delay to the project. Prior to initiation of grading, a meeting should be arranged by the developer and should be attended by representatives of the governmental agencies, contractors, consultants and the developer. Construction should be inspected at the following stages. o Upon completion of demolition and clearing. o During all rough grading operations including removal of unstable materials, precompaction and filling. o During trench backfilling but prior to paving or other construction over backfill. The findings and recommendations of this report were prepared in accordance with generally accepted professional principles and practice in the fiel9 of geotechnical engineering. This warranty is in lieu of all other warranties, either express or implied. We sincerely appreciate the opportunity to be of service. If you have any questions concerning this report or require further information and services, please contact this office at your convenience. Respectfully Submitted, LAKESHORE ENGINEERING FEN YONG, R.C.E. 37442 Exp. '-6/30/04 ENCLOSED: APPENDIX A - EXPLORATORY LOGS APPENDIX B - LAB. RESULTS REDUCTION COPY OF GRADING PLAN ~ I. I I I I I I I I I I I I I I I I I I '" APPENDIX A FIELD EXPLORATION Field exploration was performed on the morning of April 22, 2002 using a backhoe (Cal Wests Backhoe Services). The soils were continuously logged by our field personnel and, classified by visual examination in accordance with the Unified Soil Classification System. Our trench logs are attached for review. To evaluate the compaction characteristics of the fill material, field density tests were performed. Also, representative bulk samples were recovered and shipped to the "laboratory in polythelene bags for laboratory testing. Mr. Mark Tortomasi Lot 98 of Tract 3883 Carmelita Circle Project No. 02-009 Dated May 1, 2002 Lakeshore Engineering \"S I I I I I I I I I I I I I I I I I I I PLOT PLAN VI .... -----< " ."-. " \ \ " 1 @ " ...J " 6) '-;,~ c,iV'\v, "- LwIOS' "-i~) , (4U ..... ~ 11__ J];n,~ , 11--11 lIoo...... FC.. Se. .1~ ~f'ZS~'2S. "~ " " 1 - -Ii' COOU~ ~'D:t . , 0' ~ \5IOOiflcolz. fF-.' II ~ , ~ --& .r-. %- ",,~~t/~ ~. '" <$<If '" o l~ ~- if! '" ~ / ~ 1r.~Ali!.~ I 2:ICW:v. . CUT. . eEl- _ ,\ . ~ . '" ~, '. - \ L' r Z.s ' .,'..,. ~ , ~ 6~'1' 44'w "'- IV , Q ,,' ,,--... ({j~ CARME UTA CIRCLE' ~ . ' EXPLANATION J T-3 r APPROX. LOCATION OF EXPLORATORY TRENCH. LAKESHORE Engineering SINGLE FAMILY CONSTRUCTION LOTS 98 TR. 3883 CARMEL ITA CIRCLE FOR MARK TORTOMASI \fp CONSULTING CIVIL ENGINEERS Project No: 02-009.PI Dote 5/01/02 FIgure No: 3 I O."2:e E'evalton <2i:E. pu:rr. I"LAN. Logged By: ~.'jt\~(,. I "eree Oflentalion gEe Pill!. PLAN. Dale 412.2.102.... n"n'Dlmensions' !"'''W''' ""L r,^ Equ,pment: CIh... wa--r. RA-c1::.tf()E. Re.lT1\L. '" . Z) ^ l ~ )( D J-I~ Th.IogIa'rlprlMl'Ullonol&u~f'flCl.lOl.ndgroLW'Htw'I...condItlof"ll.tthlltlntlndPI;JC.OluC'~(lon :::;:J:...na .,.,Jaler Depth: tVoN'E. wtthtl'le~oetilm.OfaIII1'fOll'latbcl1lonthautnlybetol'liOQUI"laICNI'lQtllntor-djlionf I SAMPLE ",Q;--?;-, ,- >>~0<3 ""s$- (:- =: ; ~ i ;;: ~"C)~C)~ -t-C)~"'''' I ~ i.:: ! ::; ,'... C) v I I I I I I I I I I I I I TRENCH ,of~t L - S\LI'1 S~() - U6SE. D~ to D~f. U. (>~~l\\. (OLOL. '1 t'tl\u; t20bTH~ 112.<;.) tb1201A.s: F(tfft@,u=., lMllS,lL'I. tuE:nTD C{lAI1.~E. WELL nEIl. TC\PSoIL. 1~ PEA 6'QALlE;L<;. .TMC..E. }i\Alc..A. L6W. E.I. - NO CLAy. RE:: ~ ( OUl..(\'\; . ."":2 ~:eva!,on:- Logged By: ".'- ", ro',"n'2110n S-E.E. pun. pl..frIij , ' v.. "- I Date "0-:' C),rr,ens,onsl"8"10X ~ 'l>X' l-z.'L. ::;':J':.'iater Depth r'0E..-.' Equipment.: TI,::> 10fSDIL -~~ICt.eN Lv M.OVT. -4~ FT. Loo~e... SIl..:'" ~~D. LI. ~~. C;fn.U.~ As:. ~ &:l vE... . ~ V~'i. U'1fu;'lo ND. Cu\\.f~. Ww z.xPAi\)'l,10I'J . .1>. . Q.~tOUUM. - ~Cd ~eNTec, s.~O'l.. L1. C()LnL 1M 11:> LT ~IH)c,UIIJ. Pl\Wlf>. flD. VOIP<;. 1:t2.Ac..el /...f;!,c;. D/r, ~!L-\. ApfE!:1!rfU. U k:E ~ IUJQ::..- PI\t,(.Q1\ ~ft\l D I1l S!u~70~E.. $' .Y~~\oNE '5E:9Vl-1s. 6.6 @, 1"'n: 'It> I Ai..- OC--fl h '0 h. . rJO Sf U) e: WI'fU...... c..AV I t0b tJO ~ 'SE:E.PA~ TI2-C.~ P.:>Ml<.FIlLG-1O ....,.- ~.z.. C(1.1 i 5. I (11.ll 5 10 15 20 5 10 15 20 II I _AKESHORE Engineering CONSULTING ENGINEERS AND GEOLOGIST LOG Trench Number i~l~iL... T-l ~l--z.., An.E. LOe. SIDE ~'1 ?'IJ)E . ~IL PIlbF,LE. ~lJt.. t\1/L€ .)1"l1U\12.. - U. /bitt.:). 3.e-I\'lC~ SIL'::1 _ UtJ,ROO TtU\c.E. Q.l\...\. r,)Ef\IS~ e. - 2.411. Do !Jt:':.,P.,LE V 61 OS _ U)8l\AP-m ~L V\A.()\S", Ta.M.e..... b~fI,{ - SfUS(tllI.le.. MasTL'\ ~~r~ ~[) Sf tOTAL DEPTH. 6.0' Nt> SIOC-vJALL CfW~G tV 0 ~ PA6E. ~ScD~ -rVl e II I ~ . >&..AE... ~ AB,l\J~_ LDc.J'~\Ie,t\J - Lbv0E.l2. I41ID T'enCh Number 1'1:, . SINGLE FAMILY CONST LOTS 98 TR. 3883 CARMEL ITA CIRCLE FOR MARK TORTOMASI F';g No, 4 5/01/02 \"\ PROJ NO 02-009.PI I. I I I I I I I I I I I I I I I I I II APPENDIX B LABORATORY TESTING EXPANSION INDEX T~ST A representative soil sample was collected in the field and tested in the laboratory in accordance with the A.S.C.E. Expansion Index Test Method as specified by U.B.C. The degree of expansion potential was evaluated from measured soil volume changes obtained during soil moisture alterations. The results of the test are presented below: Trench Depth Soil Expansion Expansion No. (Ft. ) Description Index potential ------ ----- ----------- --------- --------- T-1 0-2 Silty SAND < 20 LOW (SM/SP) MAXIMUM DENSITY- OPTIMUM MOISTURE TESTS A selected soil sample was tested in the laboratory to determine maximum dry density and optimum moisture content using the A.S.T.M. 01557-78 compaction test method. This test procedure uses a 10 pound hammer falling a height of 18 inches on each of five layers to a 1/30 cubic foot cylinder. The results of the tests are presented below: Trench Depth Maximum Dry Optimum Moisture No. (Ft. ) Soil Description Density(P.C.F) (% Dry Wt. ) ------ ----- ---------------- -------------- ---------------- T-1 0-2 Silty SAND (SM) 126.,0 9.5 DIRECT SHEAR TEST Direct shear tests were made with a direct shear machine at a constant rate of strain. The machine is designed to test the soil sample without completely removing the samples from the brass rings. Samples were tested to evaluate the internal angler of friction and cohesion. The test results (see attached sheet) are shown in terms of the Coulomb Shear strength parameters. Mr .-Mark Tortomasi Lot 98 of Tract 3883 Carmel ita Circle project No. 02-009 Dated May 1, 2002 \~ Lakeshore Engineering .. I. I . I I I I I I I I I I I I I I I I I 106.2 Location Description 1-1 @. .4'-<;;' SFrlIlQ./ ~IM I SA . w.o. 02- od1. pr. Dote -.2.11102- SHEAR TEST DIAGRAM 3.5 3.0 2.5 LL. (/) :IC: I I 1-1~o; I I .NE.O (--,0.... :: 2.0 0> c: QJ ~ !.Wt')('i:.il 0> .!: 1.5 ... 2 .c: (/) <P"'~1' . C,::.O.t2S" 1.0 0.5 /(; - 0 0.5 1.0 1.5 2.0 2.5 3.0 Normal Pressure KS F Remarks: Ll~IlI!>T. 2J~(.. SIll. <:\ Pn.I\,A)Ex>. \)(f)~ T~ (~. -rcrll TOrt.f.~ \.) . !.JYL q2, I~'. >8'8~ C"'4lM~A Clo..c. q>= 3r . c =~'l~ K.S.F. \'\ FIGURE o I ~ ~ J> (') - ... :::T _. <D-i< .... :::T ~ lii" CD -.j 3 ." C~ :J _. ,,, :::;;ClJW o::r C 3 ai- CD:J ... c:Q. g;~ Z :J -_ co 0 '" (') g Q) o c: .., IS (/) I - <D en -iQ. III -. cr:JO CD () C (/) 0 :J ......c. ... O>:J (') , () en <:!: _ III 0 ,., :J :J ~~.N q>S: 0 -i ::::J CD en 00 -. III < - me :;: -.0 o .... :J :J o iir - s::O _.(1) :J"O (1) III (/)~ III 3 :J (1) Q.:J - (;)0 (1)- g ~O cc:J '< (/) I (1)~ ~~ - cr :J 7 p-.:l~':Tl.di' L -- ~~';:i " 11'/ v) ,"i ? ' " ' " . q.~, /. ' ""1 ~ ....1}., " ",', ~ ~ .' ""?' \. .,,~~ , "- /" , ';; ) ^-~~~ , . '---- ~,'/ ~ )/' , ". . :.~ --: I~ "L" '" 2 Ih ' -rc ., , " , "" .,.,...,.. , ,,, r~< ,',,', , / l.. " \' . " :0 " /. " " '~ ' " II ,. / Ail> ,'~.. . ..: " 'A ' <D L , "" , ", ," .": (, t 000 , i,..-".~ .c...,. ~ ;' ~ ~; " ~ l'- =-,..;, / cl " ~': r:::: J... _____ 10 , _.'--./""" , l$j b' r,' '" .' / ':' ~. " " .<Ie fa'/" ' ", "J ,., ;;:: ,'" ~" - , '" i::. I,,' / . . I-J, ..;c-" " ?t 7 ,/ / "r=.,(!i ..... ~".4. ~~ Y~I;2f.. ~ cs.. ./ rV. ", '~'8': ," t"::. 'J ..~ ~' " H,....~c/:: ffi./{"l ,/,l>., ~, .. yt "d '>-.~ ..-.,.",,?>'...',' "'~' r\' ~~y r ^~ ' .1::::'\ ~ " ~ /.. -G:~, ..r-- _ :<::.4,.. ,',,;r- .7/': 'V r<~:~', "@ ~ :l ~~':llt k~~ fJ'~' ~',.,.,..~:',,','"': ,'.~,w",~". ,~'~ z ~~ ~J!1~ ~r-~lt r- r '" ".. :5(-' " ~ 5 t:>l.L. .::. " , ,t. v' 2,,^ ~, 1=1::>., I" ~""'.l"" ,,-,/ .., ".,!.;. ~' '- ,-" JJ/ ',~' "', J' 7 l 1:\ r;. "D~,' 'F;J 7' . " -/JC~"'" .. I./: '\...f ~ _rj.~ = ' , ] ~", ,'...>:. "" AszK":"'?' !'->-- l ~~~ ~ ,,). ..;;;; ,.',.,.:',,;, " ~ ,. {"::t:i " I., " , '~ , r- .~. ~. ~ } ;, ,..,"'...,'.. ..;L->,,//it~:s' " (/) "\. i~"..". ,.",', "",..' YU J. <r'" I c ~ _y1.r '-'oF !;1 ,/ ~' "', ~ f, ::J ,. (l). ):.u:.. '. t:,/./~ '" ' ," ,/~......, -U).. ,r Q ffi ~." L ,C..,f" l l.L,rr Ir- . """ ' ,a / "\ Il', 1=1= 1r" ' , '.rF, l"'" '1..., r A,' ":B ~~-'>Xx; Xl- ~ --:- _ JI.., 'kJ '., ~.,~ ry5&{; .::--. "'~; ~ ~"L ~ ~ L ~ 8fc..'Q< / ~ ~~ =..l! en ~~~ r- .L 1\'".\' (;;v... / .~ 1>1 111 ;p ..[ m " ""< d.::l:1...~,JV ~ ...JL "l. l\:) { /'" yv~ ~ '..... - I ' .. , ' ,,>\ "l,... , 'r:: 01 , " ~", I::; ,n ...LJJ' ~ / 'c\;f..\ -)L--.. -'" f-\' -<- li lLr1'JI,...l. . -I ( V'/ " ' ~ J" -r I I j!.....\ h ~ ' / i - r - s: 'J ' r\ c--..... ...v--U'" r- - jlI; 3:12.l.J.. ^ '''ll.' ~-'i1:(I)" 'L1" ~, ' ~ !'G~~ .., ~. -.. "'- P L I =1': ::;. ~ " -", C::f<\ .. -i ";' III ~ ~ ~ F t\ " . .. ~~ '( .A m~_ "-....p (,---' - .EL.. 1\ J5i- ~ ,/ "'- 0 H ~~ n, ., -lII!lF~" .' fii ,\W-r . ~ , r-. 1'- .,r c'; In- _ _,_ I ~~p lb"-%!,, \~,,/ ./) J'{" i \ l ~y \" "' ~l.\..\~r'\~~ >" 5:J f.-- . , l~ \.. .i r -,-):1,,{ ',' ... >:::-r c- , ,-.. \ ..k ~ i0-j ;' ",~~- I \ ~ ~~I(~ ~i '4~"" ~ '.)%1-1 I\J__J.,.~ t. ,) !:r~ ~ "'f .,.... G I'" b# r---" ~ .. _- _ __ _ .-,.- _ o....~;,.t.1--T J -,j I~J/ ~ \ ~. ~ ~?,' ~ -.. ~~ ;:; - ~ t'-n- r <f.?f- , ^"\l Y"Y~ :::.&i ,,'~ <l'A N I ,.Jv ~ ~ D.'" }~, LL....l...L ~.~ '~...1>.-4:, , ~'--\. > :::1..~.\2:l - ~ ~ , , , , , , , , , , , , , J~ --t. . r- m (j) m z I:) rn 0> 0> ~ D> ::J 0. 0> 0. ii co 0> ::J 0. D> ::J 0. :i' 0. 0> X 3 II> ." "'rn O>:r 0[ 2.0> 00. "'N 00 " ::J 00> 0>'" '" D> . Cil :IE '" :r S' '" "" 3 a 9 ~ ::J [ij"" . ...,...".:'.."..." ',..,...'.. ' -"C' ,'-:" ; ..:'/~i." '. :/ ,:; ->"-.:, " ','-.', ". )> - III C:' ;::;: OJ - III c: ;::;: so ",,0 ::Ja 00 =;" ::Jii! 00 0>- iir~ 2.g 00> "'2'. O:r "0 o ::J. <DN ~g g 0. !: D> ::J o 0> . . I : I I : ' . . I : I I : I . . I I : I I : I . I I : I , . I I : I I : I , . I : I , . I . ..... ..... 01 0 01 7':" 7':" 7':" 333 -0 01 -...... o A- -. - o 3 CD - CD ~ en ~ :0: 1ir .g ." a x 3' ~ -< 0> .0 C !!!. S ~ ~ )> " co " J!l. ~ ~ ... ~ ~ar-II-02 07:;1,. fra.-A~PAC AND ASSOCIATES 9092430006 T-626 POI f-9;; I I I I I I I I I I I I I I I I ,. I . I r ~:U7PAc#02~ OA~ JANUARY 7, 2002 1-800-564.7372 (909) 780-0150 FAX 780-8291 FI'r'f.- TO F~ e Z-'-14 - z-<?/17 ffU7'" b"wiD ~.J{,17'- 3/"/02- PROJECT NUMBER: 02-6604 DATE: JANUARY 7, 2002 JOB SITE LOCATION: CARMEUTA CIRCLE TEMECUlA, CA. APN: 919-082-005 LOT 98 TRACT # 3883 .- PREPARED FOR: MARK TORTOMASI . , . Percolation Inllestigation AM/PAC AND Ass6cIATES - P.O. Box 545 . Norco, CA 92860 2-\ ~ar-I H2 07:;2,. fro.-A~PAC AND ASSOCIATES 9092480005 T-52l ?02 H\5 II , I I I I I I I I I I I I I I I I ! I I NvVPAC AND ASSOOATES PROJECT;I 02-6604 DATE: JANUARY 7, 2002 PROJECT NUMBER: 02-6604 CLIENT REQUESTING REPORT: MR. MARK TORTOMASI (908) 262-6622 24426 ROVENDALE COURT MURRIETA, CA. 92562 DATE: JANUARY 7,2002 JOB SITE LOCATION: CARMELlTA CIRCLE TEMECULA, C,A., APiii:919-082-005 LOT 98 OF TRACT ;I 3883 PROPOSED DEVELOPMENT: A PROPOSED CUSTOM FOUR BEDROOM FRAME RESIDENCE UTILIZING A SEPTIC TANK AND LEACH FIELD SUB-SURFACE SEWAGE DISPOSAL SYSTEM. PURPOSE AND SCOPE OF THIS REPORT: THIS TEST WAS PERFORMED TO DETERMINE THE FEASIBILITY OF USING AN ON SITE. SUBSURFACE SEWAGE DISPOSAL SYSTEM ON THE LOT IN QUESTION. THIS TEST WAS PERFORMED FOR A LEACH LINE APPLICATION, THIS TEST AND REPORT WILL DETERMINE WHETHER OR NOT THERE IS SUFFICIENT AREA AND PROPER USABLE SOIL AVAILABLE FOR A SUBSURFACE SEWAGE DISPOSAL SYSTEM TO SUPPORT A PROPOSED OR FUTURE BUILDING PROJECT ON THE PARCEL OR LOT TESTED. PROPERTY DESCRIPTION: THIS PARCEL IS A 0.55 + - ACRE LOT, DIMENSIONS ARE NOTED ON THE ASSESSOR'S MAP ATTACHED. THE PARCEL FRONTS CARMELITA CIRCLE ON THE NORTHEAST LOT LINE OF THE PARCEL. THE PARCEL HAS NOT BEEN GRADED PRIOR TO THIS TESTING AND REPORT, THE PARCEL IS COVERED WITH NATIVE GRASSES AND WEEDS. NO TREES OUTBUILDINGS. ROCK OUTCROPS. WATERCOURSES NOR WELLS WERE NOTED. WATER IS SUPPLIED BY RANCHO WATER DISTRICT. NO WELLS WERE NOTED IN THE AREA. NO DETRIMENTAL FEATURES WERE NOTED DURING OUR FIELD INSPECTION OF THIS PARCEL. TOPOGRAPHY IS NOTED AS FALLING TO THE REAR OF THE LOT APPROXIMATELY 15' OVERALL. A GRADING PLAN IS BEING PREPARED FOR THIS PROJECT. THE PARCEL IS EASILY FOUND USING THE ASSESSOR AND VICINITY MAPS ATTACHED, MetHODOLOGY OF TESTING: PER THE COUNTY OF RIVERSIDE. DEPARTMENT OF ENVIRONMENTAL HEALTH'S REQUIREMENTS: ALL EXCAVATIONS WERE MADE USING I>MIPAC'S MOBILE DRILL 8-34, TRUCK MOUNTED CONTINUOUS FLIGHT AUGER, DRILL RIG. AN 8" DIAMETER AUGER WAS USED TO EXCAVATE THE PERCOLATION TEST HOLES AND A SIX" DIAMETER AUGER WAS USED TO EXCAVATE THE EXPLORATORY BORE HOLE. SCREENED LINERS WERE USED TO MAINTAIN THE HOLE:DIAMETER AND PREVENT CAVING DURING TESTING. INDICATOR RODS WITH FLOATS READING A TENTH INCH GRADUATED SCALE WERE USED TO MEASURE THE WATER DROP. A 100 AND/OR 300 GALLON TRUCK MOUNTED WATER TANK WAS USED TO PROVIDE WATER FOR THE TESTING PROCESS. PERCOLATION TESTING WAS PERFORMED WITHOUT PRESOAKING. TESTING WAS PERFORMED IN TEN-MINUTE INTERVALS OVER A ONE-HOUR PERIOD. AT THE END OF ~ ~ " ~ar-II-Ol 07:53pm From-A~PAC AND ASSOCIATES 9091480006 T-625 P,03 F-955 II I I I I I I I I I I I I I I I I I I AMlPAC AND ASSOCIATES PROJECT j# 02-6604 DATE: JANUARY 7. 2002 EACH TEN-MINUTE PERIOD THE INDICATORS WERE READ, THE RESULT NOTED AND THE HOLES REFILLED TO THE .ZERO" LEVEL WITH WATER. THE INDICATORS WERE THEN RETURNED TO THE "ZERO. POSITION, THE "ZERO' LEVEL OR POSITION IS THE DEPTH AT THE BOTTOM OF THE INVERT OF THE PROPOSED LEACH LINE PIPE. TEST DATA: 25.00 MINUTES PER INCH PERCOLATION RATE 55 SQUARE FEET OF BOTTOM AREA PER 100 GALLONS OF SEPTIC TANK CAPACITY PER DAY REQUIRED MINIMUM. THE MINIMUM REQUIREMENTS FOR THE PROPOSED SYSTEM ARE: 1200 GALLON SEPTIC TANK 660 X .8 = 528 SQ. FT. OF BOTTOM AREA 176 LINEAL FEET OF TRENCH AND PLASTIC CHAMBERS INSTAlL 2 LINES, EACH BEING 00' X 36. WITH THE INFILTRATOR PLASTIC CHAMBERS EXPLORATORY BORING. PERCOLATION TEST HOLE BORING AND PERCOLATION TESTING WERE PERFORMED ON 1-7-02. AlL SITES vyERE IDENTIFIED WITH LATH AND , FLAGGING. CONSTRUCTION REQUIREMENTS AND RECOMMENDATIONS: THE GRADING PLAN MUST BE STAMPED AND APPROVED BY PMlPAC PER RIVERSIDE COUNTY EHSD REQUIREMENTS. SEE THE ATTACHED TYPICAL LEACH UNE CROSS SECTION AND SETBACK GUIDELINES FOR FURTHER !NFORMATION. THE RIVERSIDE COUNTY DEPARTMENT OF ENVIRONMENTAl HEALTH REQUIRES THAT THE LOT CORNERS BE MARKED AND THAT THE ADDRESS AND ASSESSOR'S PARCEL NUMBER BE POSTED IN PlAIN SIGHT ON THE PARCEL ANY SYSTEM DESIGN PLOT PLAN NOT PREPARED BY AM/PAC AND ASSOCIATES MUST BE APPROVED BY AMlPAC AND ASSOCIATES PRIOR TO PERMiT APPROVAL OF THE PROJECT BY THE RIVERSIDE COUNTY DEPARTMENT OF ENVIRONMENTAL HEALTH. AL~ WATER WELLS MUST BE AT LEAST 100' AWAY FROM ANY SEPTIC TANK AND/OR LEACH LINE. THERE IS SUFFICIENT ROOM AVAILABLE ON THIS PARCEL TO ALLOW A SWIMMING POOL AND/OR OUTBUILDING WITHOUT ENDANGERING THE REQUIRED 100% EXPANSION AREA. . , ~ -z.~ .. ~ar-I 1-02 07:5.,. fro.-A~PAC AND ASSOCIATES 90921800D6 T-526 PO. H55 I I I I I I I I I I I I I I I I I I I IW./PAC AND ASSOCIATES PROJECT ~ 02-$304 DATE: JANUARY 7, 2002 CONCLUSIONS AND RECOMMENDATIONS . BASED ON THE DATA PRESENTED IN THIS REPORT AND USING THE RECOMMENDATIONS SET FORTH HEREIN, IT IS THE OPINION OF THE UNDERSIGNED THAT THERE IS SUFFICIENT AREA ON EACH LOT IN QUESTION TO SUPPORT AN INDIVIDUAL SUBSURFACE SEWAGE DISPOSAL SYSTEM, THAT WILL MEET THE CURRENT CODES AND STANDARDS OF THE ENVIRONMENTAL HEALTH DEPARTMENT, . BASED ON THE DATA PRESENTED IN THE REPORT AND THE TESTING INFORMATION ACCUMULATED, IT IS THE OPINION OF THE UNDERSIGNED THAT THE GROUNDWATER TABLE WILL NOT ENCROACH W1llilN THE CURRENT ALLOWABLE LIMITS SET FORTH BY COUNTY AND STATE REQUIREMENTS, HORSE CORRALS, ANIMAL PENS OR DRIVEWAYS. EITHER PAVED OR UNPAVED, MUST NOT BE PLACED OVER LEACH LINES. THE PROPOSED PROJECT SHALL BE LOCATED SO THAT THE SEWAGE DISPOSAL SYSTEM AND THE REQUIRED 100% EXPANSION SYSTEM SHALL OPERATE BY GRAVITY FLOW. THE ORIGINAL LEACH FIELD AND EXPANSION SYSTEMS LEACHING SIDEWALL AND BOTIOM AREA MUST BE IN' NATURAL, UNDISTURBED SOIL AND AT THE DEPTH OF THE TESTS PERFORMED, THE CONCLUSIONS AND RECOMMENDATIONS PROVIDED IN THIS REPORT WERE DERIVED FROM DATA GATHERED FROM OUR FIELD INVESTIGATIONS AND ENGINEERING ANALYSIS, USING METHODS MEETING THE STANDARD PRACTICES AT THIS TIME. THIS REPORT IS BASED ON CONDITIONS EXISTING AT THE TIME OF THE INVESTIGATION. Am ENVIRONMENTAL CHANGES, WHETHER NATURAL OR CAUSED BY MAN, MAY ALTER OR NEGATE THE CONCLUSIONS,AND RECOMMENDATIONS HEREIN, NO WARRANTY IS MADE OR IMPLIED BY THE SUBMITIAL OF THIS REPORT NOR BY ANY ORAL OR WRITTEN AGREEMENT. ANY LIABILITY IN CONNECTION HEREWITH IS LIMITED TO THE FEE CHARGED FOR THIS REPORT, THE RePORT STAMPED "ORIGINAL' MUST BE SUBMITTeD TO THe ENVIRONMENTAL HEALTH DEPARTMENT WHEN APPLICATION FOR A PERMIT IS MADE. THE HEALTH DEPARTMENT WILL NOT ACCEPT A COPY OF THIS REPORT. IF NO PROPOSED PLANS ARE AVAILABLE TO AMlPAC DURING THE TIME THE REPORT IS PREPARED, ADDITIONAL FEES MAY BE CHARGED, IF AMlPAC IS REQUESTED TO FURNISH A PLOT PLAN SYSTEM DESIGN AT A LATER DATE, THUS REQUIRING AODITIONAL WORK. THIS REPORT IS NOT TRANSFERABLE WITHOUT 'THE WRITIEN AUTHORIZATION FROM AMIPAC ANO ASSOCIATES, STAN SCHUPP DATE: REGISTE~ED PROFESSIONAL ENGINEER R.C.E, NO: 14568 LlC. EXP. 03.31-01 DAVID E. BALLINGER, PRESIDENT AMIPAC AND ASSOCIATES ENGINEERING ~ - . .- V\ ,. ~ar-II-n 07:55pm Fro.-A~PAC ANO ASSOCI.\fES 9091480005 T-515 ',05 H55 I I I I I I I I I I I I I I I I I I I I AMlPAC AND ASSOCIATES PROJECT # 02-8604 DATE: JANUARY 7, 2002 SOIL PROFILE DATA BORE We 0-5' SIP fAN BROWN DECOMPOSED GRANITE SANDS, FINE TO COARSE GRAINED LOOSE AND DRY. 5-15' SfF GRAY TAN SANDS, FINE TO COARSE GRAINED SANDS, SLIGHTLY DAMP AND FIRM, G!\OUNDWATER INFORMATION GROUNDWATER AT THE TIME OF BORING; NONE GROUNDWATER AT THE 24 HR. RECHECK; NONE MONITORING WELL INSTALLED? NO , . : ~ / ').P ~ar-\1-01 07:550. Fro.-A~OAC AND ASSOCIATES DATE: J r.....l. '7. 'Z..f)oz.. /J n.P 1M"'" ./"f^(.>r ,...-- v- l.A'f'V' .. ......... N~ TOPOGRAI'HlC CONTOURS SHOWN ARE FOR REFERENCE ONLY, NO! TO BE USED AS ACTUAl SURVEYED CONTOUR UNES. SCALE: I'~?O ' 1- I I I I I I I I I I I I I I I I I I I AM/PAC & ASSOCIATES PROjECT NUMBER: oZ-(,t#o4 .- , . !\ '" " ~ 1\ 9091480006 ~ ., /1..;" . G1 ~ G) T-616 0,05 F-355 C--\ee.-u$ ~ ~ @ ~ ~ AMjPAC&:A5SOCIATES .' X 545 NORCO, CAUFORNIA 92ll6O" 909,780,0150 FAX 909.780-8291 '2k