CEDAR 5.3 5R'?Pkw??|||||@|||||||||hN0@/b0@6i)@zG-2@e)O@6i)@zG-2@?cm9RFߑ??. $4\<tD|c$h}@,| @E0@2aO@4  @E0@ WL4<$D4{Circle4}.radius-({Cell10}.value-{Rdim8}.value)/100f4P_@T|8@1@l_F9T?4 8@1@ ~v@ʡA1@$ \<f\F@d|紁N$@p= ף0@aXӱr?4 紁N$@p= ף0@ )mg!@Y21@4<<H @l|:?@Sdr /@^?4  JCF@%)/@$Y;J!@'}OfIh/@\U [@Ӻ0@4 t|t "@:?@Sdr /@^?, "O, rOss|d@ t`%@N&@^?1.00 cm<@ t`%@N&@$ ;V@ | dN+@%X3@??1.00 cmN+@%X3@ \$1cm>D@ @E0@@@A$/>|".@ :?@Sdr /@@@B<W?T@l:%@Œ_,y3@@@Target B radiusl:%@Œ_,y3@YpD6i)@zG-2@@@GClick on the cell displaying Target B radius Enter a new radius goal RollerA size will be backsolved Click on Circle A. Click on the Radius constraint The Formula bar will show the goalseek formula Note the dimension is directly included in the goalseek Formula.6i)@zG-2@o_@@}K$@@@(Roller B is tangent to all three gears.@}K$@b \.B@\.B@??@@l ?. $4\<tD|RArial"Arial"6i)@zG-2@ Metric (CGS)