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Why shear stresses are maximum at neutral axis?

according to bending stress because shear stress at neutral is 0 that is why shear force is maximum


What are the types of engineering stress?

As far as I am aware: Tension, Compression, Shear, Bending, Bearing.


What are the 5 types of mechanical stress?

There actually only 3 principle types of stress: Tensile, Compressive and Shear. The other two are actually combinations of those three. Those stresses are torsional and bending. Torsional stress is generally a tangentially arranged collection of shear stresses. Bending is a combination of both compression and tension on opposite sides of a neutral plane through the bending section.


Types of stress in details in physics?

Types of stress in physics are... 1) Tension 2) Compression 3) Torsion 4) Bending 5) Shear


What are the practical usage of shear force and bending moment?

I also searching for same..


What will be the shear force when bending moment is constant?

On SFD's and BMD's: The shear force will be 0, the shear force is the derivative of the bending moment at a point on shear force and bending moment diagrams. Otherwise: It depends on the loading.


Where will you find the maximum shear stress in a beam?

The maximum stress occurs where shear load is maximum and maximum stress is at the center of the beam cross section if loaded in shear due to bending. It drops to zero at the top and bottom surfaces. The average stress is load divided by area ; maximum stress is dependent on shape of cross section and is 1.5 times load divided by area at the cross section center for rectangular cross section. For shear due to twist, max shear stress in the outer surface.


What do you mean bu equivalent shear force and equivalent bending moment?

MAXIMUM SHEAR force bending moment is zero shear force change inside is called bending moment


Why the engineering stress-strain curve in shear is the same as the true stress-strain curve?

The engineering stress-strain curve in shear is the same as the true stress-strain curve because, in shear, the definitions of stress and strain do not change significantly with the material's deformation. True stress accounts for the instantaneous area under load, while engineering stress uses the original area; however, in shear, the relationship remains linear up to the yield point, and the area reduction effect is minimal for typical shear tests. Thus, both curves reflect the same material behavior in shear deformation, leading to equivalent representations.


What are the stresses to which the frame members are subjected?

Frame members are subjected to various stresses, primarily including axial stress (tension or compression), bending stress, and shear stress. Axial stress occurs when forces are applied along the length of the member, while bending stress arises from moments causing the member to curve. Shear stress is induced when forces are applied parallel to the cross-section of the member. Understanding these stresses is crucial for ensuring the structural integrity and safety of frame systems.


What kind of stresses are produced in a beam during transverse vibration?

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)


Why is the maximum bending moment of a structural member as the point of zero shear?

Shear is the rate at which bending moment changes or shear is its derivative with respect to span. The integral, bending moment, goes through a maximum when shear goes from positive to negative or vice-versa.