Mykletun, and G. Tsudik, “Efficient Aggregation of Encrypted Data in Wireless Sensor Networks,” Proc. Second Ann. Int’l Conf. Mobile and Ubiquitous Systems, pp. 109 117, July 2005. 25; % End situation for fixed free column % Ac = pid1^2/4; Rcr = 2Cpi^2E/TstrYP 1, 1 ^0. 5; % Critical slenderness ratio% if R < Rcr Wcr = AcTstrYP1 0. 5R/Rcr ^2; % Short column formula% else Wcr = pi^2Ek^2Ac/ 4Leff^2; % Long column formulation% end if Wcr >= W disp ‘THE SCREW IS STABLE’ else disp ‘THE SCREW IS NOT STABLE REDUCE matlab LIFT ‘ holiday end % DESIGN FOR HANDLE, PIN AND CUP % D3 = 1. 75d2; % Diameter for matlab Cup % D3 = around D3; disp ‘CUP DIAMETER in mm =’ disp D3 D4 = D3/4; % Diameter of Pin % disp ‘PIN DIAMETER in mm =’ disp D4 T2 = 1/3uWD3^3 D4^3/ D3^2 D4^2; % Torque required to beat friction % disp ‘TORQUE TO OVERCOME FRICTION in Nmm =’ disp T2 T = T1 + T2; % Total Torque matlab handle is subjected to % disp ‘TOTAL TORQUE in Nmm =’ disp T L = T/96; % Length engineering matlab Handle % L = L+70; % Length of address + Allowance for gripping 70mm % disp ‘LENGTH engineering matlab HANDLE in mm =’ disp L M = 96L; % Maximum bending moment on matlab lever% disp ‘MAXIMUM BENDING MOMENT in Nmm =’ disp M D = 32M5/ piCstrYP 1, 1 ^0. 33; %Diameter of tackle% D = around D+1; disp ‘DIAMETER OF HANDLE in mm =’ disp D H = 2D; % Height of Head % disp ‘HEIGHT OF HEAD in mm =’ disp H % DESIGN OF BODY % D5 = 1. 5D2; % Diameter engineering matlab body at matlab top %@IJAERD 2018, 343 International Journal of Advance Engineering and Research Development IJAERD Volume 5, Issue 01, January 2018, e ISSN: 2348 4470, print ISSN: 2348 6406 disp ‘DIAMETER OF BODY AT matlab TOP in mm =’ disp D5 t2 = 0.