11 Other formulas that you can solve using the same Inputs

Diagonal of a Rectangle when breadth and area are given
Diagonal=sqrt(((Area)^2/(Breadth)^2)+(Breadth)^2) GO
Diagonal of a Rectangle when length and area are given
Diagonal=sqrt(((Area)^2/(Length)^2)+(Length)^2) GO
Side of a Kite when other side and area are given
Side A=(Area*cosec(Angle Between Sides))/Side B GO
Perimeter of rectangle when area and rectangle length are given
Perimeter=(2*Area+2*(Length)^2)/Length GO
Buoyant Force
Buoyant Force=Pressure*Area GO
Perimeter of a square when area is given
Perimeter=4*sqrt(Area) GO
Diagonal of a Square when area is given
Diagonal=sqrt(2*Area) GO
Length of rectangle when area and breadth are given
Length=Area/Breadth GO
Breadth of rectangle when area and length are given
Breadth=Area/Length GO
Pressure when force and area are given
Pressure=Force/Area GO
Stress
Stress=Force/Area GO

Bulk Stress Formula

Bulk Stress=Normal Inward Force/Area
More formulas
Young's Modulus GO
Bulk Modulus GO
Factor of Safety GO
Strain Energy Density GO
Shear strength for double parallel fillet weld GO
Shear Stress GO
Tensile Strain GO
Shear Strain GO
Bulk Strain GO
Bulk Modulus GO
Elastic Modulus GO
Shear Modulus GO
Brinell Hardness Number GO
Shear Strain GO
Axial elongation of prismatic bar due to external load GO
Elongation of prismatic bar due to its own weight GO
Elongation circular tapered bar GO
Strain energy due to pure shear GO
Strain Energy if moment value is given GO
Strain Energy if Torsion Moment Value is Given GO
Strain Energy if applied tension load is given GO
Deflection of fixed beam with load at center GO
Hooke's law GO
Poisson's Ratio GO
Longitudinal strain GO
Lateral Strain GO
Volumetric Strain GO
Volumetric Strain GO
Deflection of fixed beam with uniformly distributed load GO
Stress due to gradual loading GO
Stress due to sudden loading GO
Stress due to impact loading GO
Thermal Stress GO
Thermal Stress in tapered bar GO
Section Modulus GO
Shearing Stress GO
Maximum Shearing Stress GO
Shear Stress of Circular Beam GO
Direct Stress GO
Bending Stress GO
Torsional Shear Stress GO
Equivalent Torsional Moment GO
Equivalent Bending Moment GO
Slenderness Ratio GO
Rankine's Formula for Columns GO
Total Angle of Twist GO
Moment of Inertia about Polar Axis GO
Moment of Inertia for Hollow Circular Shaft GO
Strain Energy in Torsion GO
Strain Energy due to Torsion in Hollow Shaft GO
Strain Energy in Torsion for Solid Shaft GO

What is Bulk Stress?

The Bulk Stress is the force acting on the body from all directions causing change in its area

How to Calculate Bulk Stress?

Bulk Stress calculator uses Bulk Stress=Normal Inward Force/Area to calculate the Bulk Stress, The Bulk Stress is the force acting on the body from all directions causing change in its volume. Bulk Stress and is denoted by B.S symbol.

How to calculate Bulk Stress using this online calculator? To use this online calculator for Bulk Stress, enter Area (A) and Normal Inward Force (N.F) and hit the calculate button. Here is how the Bulk Stress calculation can be explained with given input values -> 1 = 50/50.

FAQ

What is Bulk Stress?
The Bulk Stress is the force acting on the body from all directions causing change in its volume and is represented as B.S=N.F/A or Bulk Stress=Normal Inward Force/Area. The area is the amount of two-dimensional space taken up by an object and The Normal Inward Force is the force acting perpendiculary on the object directing inside the object.
How to calculate Bulk Stress?
The Bulk Stress is the force acting on the body from all directions causing change in its volume is calculated using Bulk Stress=Normal Inward Force/Area. To calculate Bulk Stress, you need Area (A) and Normal Inward Force (N.F). With our tool, you need to enter the respective value for Area and Normal Inward Force and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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