FzzXWM3X Version 2.5IE64 MSWindows'WRLDLINK _[.  ,GT:?N0BHome@N@j`` >Home@N@j`pPRLINK V??O;d[!?RsPI)h@???O;d[???O;d[massLINK U'poinLINK (b ASystem Center of Mass'LINK ,un_Mkg??un_Dm??unRt@Lc?FR9un_CA??un_KK??unsmmole??un_Lcd??un_Ts??unFFN??unENJ??unWWW??unCHC??unRs??unVlV??unHz??unRV??unSp??/s^2@Lc?FR9/s@Lc?FR9m/s??/m??kg-m^2??kg/m^2??'LINK 'LINK  'LINK  'CSTRLINK @#Q=Uamq?'$`- self.mass #* (9.8100000000000005)???b A'LINK  'CSTRLINK  Bq8?'b A'LINK  'CSTRLINK @@qf`angle(self.v#)????'b A'LINK  'CSTRLINK !h`??`??`??q8?'b A'LINK Fk?ə?׮zG?'LINK 6eTexMDTEXTttxtDTAexDC6eT98exVXMoVV avi .eTexDXTEXTDCGTDXF'LINK 'LINK 'LINK &LINK  &LINK &LINK massLINK @??@&?@@" ?33@?33@??6b A RectanglepoinLINK `(0.0)??%`(body[1].width#-body[1].height#)/2.0????b AAnchormassLINK 4 `Input[7]????@&?Dw ? j `Input[11]?FR9? `Input[8]??? ?33@?33@??6b A Rectangle@`constraintforce(10002,3).x#???`constraintforce(10002,3).y#??? poinLINK t`(0.0)??`{body[3].height}/2.0???b APoint@`constraintforce(Point[4]).x#???`constraintforce(Point[4]).y#???poinLINK (?b APointCSTRLINK nqp?b APin~LINK \J@?ə@ @<Ptvb APendulum Length (m)@Input[7]LINK \J@@@4@<Ptvb A Pendulum Mass (Kg)@Input[8] LINK ],yd`t?P?V?kA?u<vAb A Rot P-V-A of Pendulum@`time#??? `Body[3].p.r#??FR9@Lc `Body[3].v.r#??FR9@Lc `Body[3].a.r#??FR9@Lc LINK ],y`t@$P8p@3.eEVTpN@@UWkAQ} n@VQ&҃2u<vb A Rot P-V-A of Pendulum@`time#??? `Body[3].p.r#??FR9@Lc `Body[3].v.r#??FR9@Lc `Body[3].a.r#??FR9@Lc LINK \J@ @4@<Ptv_b A 0.Initial Pendulum Angle from Vertical (degrees)@ Input[11] LINK Y7Z A slender bar is used as a timing pendulum at the top of a tower. Specify the initial pendulum angle, pendulum length, and pendulum mass. Find the maximum and minimum forces acting upon the connection point. Briefly state the target concepts that you learned. b A Text LINK ],nd`t?Fx?Fy?k|F|?u<vwGb AForce on Pin (N)@`time#???`constraintforce(6).x#???`constraintforce(6).y#???`|constraintforce(6)#|???LINK y N Tb System Button 14LINK y Nz b System Button 15