Related MCQs

• If the two principal strains at a point are 1000 x 10^-6 and 600 10^-6, then the maximum shear strain is
• Two solid circular shafts of radii R₁ and R₂ are subjected to same torque. The maximum shear stresses developed in the two shafts are ₁ and ₂. If R₁/R₂ = 2, then ₂/ ₁ is ______.
• A hollow shaft (d₀ = 2d_i where d₀ and d_i are the outer and inner diameters respectively) needs to transmit 20 kW power at 3000 RPM. If the maximum permissible shear stress is 30 MPa, d₀ is
• In terms of Poisson's ratio ( ) the ratio of Young's modulus (E) to Shear modulus (G) of elastic materials is
• If the Young's modulus and Poisson's ratio of the container material' are 100 GPa and 0.3, respectively, the axial strain in the cylinder wall at mid-depth is
• A 200 100 50 mm steel block is subjected to a hydro static pressure of 15 MPa. The Young's modulus and Poisson's ratio of the material are 200 GPa and 0.3 respectively. The change in the volume of the block in mm³ is
• A horizontal bar, fixed at one end (x = 0), has a length of 1 m, and cross-sectional area of 100 mm². Its elastic modulus varies along its length as given by E(x) = 100e^x GPa, where x is the length coordinate (in m) along the axis of the bar. An axial tensile load of 10 kN is applied at the free end (x = 1). The axial displacement of the free end is _____ mm.
• The state of stress at a point is _x = _y = _z = _xz = _zx = _yx = _zy= 0 and _xy = _yx = 50 MPa. The maximum normal stress (in MPa) at that point is ______.
• In a plane stress condition, the components of stress at a point are _x = 20 MPa, _y = 80 MPa and _xy = 40 MPa. The maximum shear stress (in MPa) at the point is
• The principal stresses at a point in a critical - section of a machine component are ₁ = 60 MPa, ₂ = 5 MPa and ₃ = 40 MPa. For the material of the component, the tensile yield strength is _y = 200 MPa. According to the maximum shear stress theory, the factor of safety is