JFIFC    $ &%# #"(-90(*6+"#2D26;=@@@&0FKE>J9?@=C  =)#)==================================================i" }!1AQa"q2#BR$3br %&'()*456789:CDEFGHIJSTUVWXYZcdefghijstuvwxyz w!1AQaq"2B #3Rbr $4%&'()*56789:CDEFGHIJSTUVWXYZcdefghijstuvwxyz ?V2>\aZ& Y+ g'-Ҧ(ꓑnehRrz]DlѸeAu*R݄SȢXlN*hE$/IBfOO7:QNtr7 "͓ : H+2@W y1#t0#ߜs޹MZ|rҮ\ gndβϰP#*1jy- h[i"8'ӂ\<:Fϩ׫|53jW2B0Q-yRh>_8g=b,ɉ *)qzZ7l662O9W.%s$7 F+996ɒqSrQ%wr6xn{ ]FHmZ8!T.c?U##n( ة eҝEUb֦݌n"xhՆCoj{~hDjF܅P8kVo1ֻ x~~ ڞ a# ACTҶD֞)K̄+Ll22;Wj$ZjS*+W>k;9f$"A\ nV8L>KHW)o*=:u5\F;H^{30vnK:}0qSvNh6p䓜ɮJr a8l#j[Ʊhy閌j9U\$sE]ԭTF$,swQ$,|Tvg9a*gί#ȃu=y5`A^vZu2T'P9!ߎe68oRVE96Iz\)Qq}\=9vskpPr9Ir,NXUIz7\8Pn098⼏@{y܄enQ]-׊u eDO?ihu]'NWyͺ+udCUvI&;V5c\ :ѻ5sU8Ҋ.OC1X+dr>W3P8y-C<Ĺ%I9hYITv^XFt2 IN{5I5 }mr;7C^Qc$7Iё188Kf̶vN͗;H+^;dUMR3*zʎ b1ydssh 9#*,Mj,R1`|)UJuB$H`\ne n 4vdԜ$*I\M;d POiEubޤWM,#R{RR\JXhM:9_V4w%{gKX;3yMZR8nG352,շך%..2ld( gͫ܇ +t15/bȶzHz I&p;I!4ի"\̽^iL7qqֺ s\,^KI;$;խ6Oխ$R.ZcJH'ִ! ?h ǧ4QEYck%U<5[YU6>$$Y]e`V}~ 9j2O rii>uhZ4)HZ"ش@2y#j.]`fvN@EϿ9M?S>}*f4H.ѦC5g" `!^4Vw_ƲuYfw$0Xfk'=i9(&kT2͆v}IwHAstQ{TDɩG`b)<-z6$@v9y7wfֲ3<$AinOt}"ݬm$_9bzflcw<6c.0ç*&T%>X Q2C.'vȇzB;Uw'gU~@2hQCre]O$5|S˛xbz_YVkf=<=롱Ko@9-rIEjmE³q>/4H[9$ g :TZ 41%w ƪR i0Ʌ1;9*7p:|sw!٫uszV$roSXLn((^qYDV3DÁkƦ`i*)U>p-BxtSx$rڢITi]vXl5^,mB3 N9zu'dfG?2#)ӊh6U][j){jmcbɽmoޔWbsΏ<^NG`=&0Y&nAϭsޤ$vl6dKK3՟T.R3YZeأ,b>s C\zpN[|W'TFF^CTwVh#s '^і8|8_qlWU6%ÖSn!kZ]ep8Uuڳi\t`uq~5;hmngRW#{<Ҽ S8%4$&RZ1v0ntM%rJ<br>The Tanita Analyzer uses the BIA process which sends a mild electrical current through the body to measure the impedance, or resistance to that current. Biological tissues (muscle, fat, bone connective tissue) act either as conductors of, or insulators to, the current. The current will flow through the path of least resistance. Muscle tissue, which contains about 73% water, acts as a good conductor for the current, while fat tissue, which contains very little water, is an insulator. Therefore, the current will travel around the fat, and through the water in the muscle.<br>The more fatty the tissue in the body, the harder the current must work to travel around that fat along the muscular structure. In this case, the resistance to the current generates a higher impedance value, which in turn reflects a higher value for body fat. The impedance value is then plugged into an equation (along with height, weight, sex, physical stature) which calculates body density and percent body fat. To ensure a high level of accuracy, this equation is correlated to DEXA (Dual Energy X-RAY Absorptiometry) and underwater weighing (Hydrodensitometry).<br><br>TANITA ANALYZER SUPERIOR<br><br>The new Tanita Analyzer is now the way to go for high schools and college/pro strength coaches. First, and most important, they are highly accurate when compared to DEXA or underwater weighing. They are also extremely accurate on an immediate retest. Therefore, when another retest is done days or weeks later, you will get a highly accurate difference.<br><br>The new Tanita Analyzers are easy to operate by anyone (student aide, or coach). All you do is step barefoot on the Tanita Analyzers and in just a matter of seconds, you get an accurate, reliable body fat measurement.<br><br>Here s what I suggest. For small groups like five or so football players, five or so wrestlers and five or so coaches while measuring body fat about once a month, get the TBF-521 Tanita Analyzer for the best buy. It only costs $299.00.<br><br>The TBF-305 Tanita Anal