In any three orthogonal directions.
three different source of light from three different directions
Type your answer stress; the force applied perunit surface area of the body that produce or tends to produce deformation in a body is called stress if a force F to a area A of a body then stress=force/area or o=f/a where o (stigma) denotes stress.obviously, the SI unit of stree is newton pper square meter(Nm-2). strain; the fractonal deformation resulting from astree is called strain
natural science,applied science and pure science
Yes,Halite has cubic cleavage. This means it can break along planes in three directions.
is effective withboth small and large groups includes informal discussions takes place in a low stress environment
When stress is applied unequally in different directions, it is termed shear stress. Shear stress occurs when forces are applied parallel to a surface in opposite directions, causing the material to deform by sliding over itself.
What are three types of stress that can be applied to an equilibrium system?1. Temperature change2. Gas volume / pressure change3. Substance concentration change
stress is defined as the ratio of applied load and area. stress=applied load/area.
Stress that pushes rock in diffrent directions is called tension. Not shearing
the 3 kinds of stress are compression,tension, and shearing
The three factors that affect creep in materials are temperature, applied stress, and time. As temperature increases, materials tend to exhibit higher rates of creep. Similarly, higher applied stress accelerates creep deformation, and longer durations of stress exposure also contribute to increased creep.
The three types of stresses are compression, tension and shear...
Geological stress is a force applied to a rock.
Ah, that's a wonderful question, friend. The stress that pushes a mass of rock in two opposite directions is called "compressional stress." Just like when we paint, sometimes rocks feel the pressure from different directions, but they can still create something beautiful in the end.
stress that pushes a mass of rock in two opposite directions is called shearing
The forces are equal magnitude but opposite directions act tangent the surfaces of opposite ends of the object the shear stress as force "f" acting tangent to the surface,dived by the "area"{a} shear stress=f/a
Stress that is gradually applied allows materials to deform more slowly and potentially reach higher strains before failure, as the material has time to adjust to the load. On the other hand, stress that is suddenly applied can lead to catastrophic failure at lower strains, as the material may not have time to redistribute the load and adjust its structure accordingly.