yes it can
The three main types of stress in a rock are shearing, tension, and compression.
no because its not possible unless both canceled out and you left with no force
Yes, it is possible for a rock to undergo compression, tension, and shear stress simultaneously. Compression occurs when the rock is squeezed together, tension occurs when it is being pulled apart, and shear stress occurs when different parts of the rock are sliding past each other in opposite directions. These stresses can result from various geological processes acting on the rock simultaneously, leading to complex deformation patterns within the rock.
Tension, Compresion, and Shear :)
The three types of stress are compression, tension, and shear stress.tensional
ShearingCompressionTension
the 3 kinds of stress are compression,tension, and shearing
tension ,compression , shear .
As far as I am aware: Tension, Compression, Shear, Bending, Bearing.
If you load it normal to the beam axis you get bending stresses ( tension and compression) and shear stresses. If you load it along the axis you get axial stress ( tension or compression)
structural, fatigue, flow. residual,and thermal
Shear stress is the force applied parallel to a surface, causing it to slide or deform. Normal stress is the force applied perpendicular to a surface, causing compression or tension.