For a thin cylinder the ratio longitudinal stress/hoop stress is

Related MCQs

• For a thin longitudinal cylinder the ratio hoop stress/longitudinal stress is
• In a thin cylindrical shell, the ratio of longitudinal stress to hoop stress is
• In a thin cylindrical shell subjected to an internal pressure p, the ratio of longitudinal stress to the hoop stress is
• The ratio of hoop stress to longitudinal stress for thin spherical shells is
• In case of thin walled cylinders the ratio of longitudinal stress to shear stress is
• In case of thin walled cylinders the ratio of hoop stress to maximum shear stress stress is
• At a point in a steel member, the major principal stress is 2000 kg/cm2 and the minor principal stress is compressive. If the uni-axial tensile yield stress is 2500 kg/cm2, then the magnitude of the minor principal stress at which yielding will commence, according to the maximum shearing stress theory, is
• A thin cylindrical shell of diameter (d) length (l) and thickness (t) is subjected to an internal pressure (p). The longitudinal stress in the shell is
• In case of thin walled cylinders the ratio of hoop stress to radial stress is
• A prismatic bar of volume V is subjected to a tensile force in longitudinal direction. If Poisson's ratio of the material is u and longitudinal strain is e, then the final volume of the bar becomes