Problem . .A member ABCD is subjected to point loads P, P, P, andPas shown in Fig. 1.11. B A P, P2 P4 2 625 mm 1250 mm - 60 cm -- 90 cm 120 cm Fig. 1.11 Calculate the force P, necessary for...

A member ABCD is subjected to point loads P1,P2,P3 and P4 as shown in Figure 1.11

Calculate the force P2 necessary for equilibrium, if P1 = 45 kN, P3 = 450 kN and P4 = 130 kN. Determine the total elongation of the member, assuming the modulus of elasticity to be 2.1 x 10^5 N/mm^2

Problem .<br>.A member ABCD is subjected to point loads P, P, P, andPas shown in<br>Fig. 1.11.<br>B<br>A<br>P,<br>P2<br>P4<br>2<br>625 mm<br>1250 mm<br>-<br>60 cm -- 90 cm<br>120 cm<br>Fig. 1.11<br>Calculate the force P, necessary for equilibrium, if P, = 45 kN, P, = 450 kN and<br>%3D<br>%3D<br>P4<br>= 130 kN. Determine the total elongation of the member, assuming the modulus of elas-<br>ticity to be 2.1 x 105 N/mm².<br>2500 mm<br>

Extracted text: Problem . .A member ABCD is subjected to point loads P, P, P, andPas shown in Fig. 1.11. B A P, P2 P4 2 625 mm 1250 mm - 60 cm -- 90 cm 120 cm Fig. 1.11 Calculate the force P, necessary for equilibrium, if P, = 45 kN, P, = 450 kN and %3D %3D P4 = 130 kN. Determine the total elongation of the member, assuming the modulus of elas- ticity to be 2.1 x 105 N/mm². 2500 mm

Jun 11, 2022

SOLUTION.PDF

Problem . .A member ABCD is subjected to point loads P, P, P, andPas shown in Fig. 1.11. B A P, P2 P4 2 625 mm 1250 mm - 60 cm -- 90 cm 120 cm Fig. 1.11 Calculate the force P, necessary for...

Get Answer To This Question

Related Questions & Answers