Answer Happy

can someone please solve this question with explanation
02. Distinguish between Product Design Specification (PDS) and Product Technical Specification. 03. In the design of a hydraulic cylinder, the piston and the piston rod have diameter of 0.2m and the 0.1m respectively. The oil pressure is 1MN/m². Calculate the tensile stress in the piston rod when the piston is under pressure from the piston-rod side. Take Young's modulus as E = 200 GN/m². 1MN/m² 04. The following shows a pin-clevis joint under static tensile loading. Determine the bearing or crushing stress (MPa) in plate A. 5 mm A 50 KN 11 10 mm 5 mm dpin = 20 mm

02. Distinguish between Product Design Specification (PDS) and Product Technical Specification. 03. In the design of a hydraulic cylinder, the piston and the piston rod have diameter of 0.2m and the 0.1m respectively. The oil pressure is 1MN/m². Calculate the tensile stress in the piston rod when the piston is under pressure from the piston-rod side. Take Young's modulus as E = 200 GN/m². 1MN/m² 04. The following shows a pin-clevis joint under static tensile loading. Determine the bearing or crushing stress (MPa) in plate A. 5 mm A 50 KN 11 10 mm 5 mm dpin = 20 mm

02. Distinguish between Product Design Specification (PDS) and Product Technical Specification. 03. In the design of a hydraulic cylinder, the piston and the piston rod have diameter of 0.2m and the 0.1m respectively. The oil pressure is 1MN/m². Calculate the tensile stress in the piston rod when the piston is under pressure from the piston-rod side. Take Young's modulus as E = 200 GN/m². 1MN/m² 04. The following shows a pin-clevis joint under static tensile loading. Determine the bearing or crushing stress (MPa) in plate A. 5 mm A 50 KN 11 10 mm 5 mm dpin = 20 mm