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.
Matlab Projects Based On Gui
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.