1 inch to 20 inch Dia of pipe.
Please answer me as soon as possible. If possible, give me equation for the same.
For calculating the collapse pressure of a pipe, you first need to calculate the Hoop stress, which is given by :- Stress = Circumferencial Force/(radial thickness*axial length) If the stress crosses this value the pipe would collapse.
Length of input arm (input force to the fulcrum) divided by the Length of the output arm (output force to the fulcrum)exampledin/dout=2cm/4cm=0.5in the example the IMA is 0.5
A Force applied to an object will cause a displacement. Strain is effectively a measure of this displacement (change in length divided by original length). Stress is the Force applied divided by the area it is applied to. (eg. pounds per square inch) So, to answer the question, it is the applied Force that produces both stress and strain. Stress and strain are linked together by various material properties such as Poisson's ratio and Young's Modulus.
A ball park figure for the weight of a double decker bus might be about 15,000 kilograms. But to calculate the centrifugal force on a turbine blade with this hanging from it would require the blade length and the rotational speed of the turbine.
it does not depends on the material dimensions (cross sectional area and length) and the force exterted on the material. It only depends on nature of the material
MA= resistance force / effort force = Fr/Fe
it depends on both the tube wall thickness and the length of the bend and how much you bend it. Otherwise you cannot determine force.
Extent of dimensions; size; -- applied to things that have length, breath, and thickness., That which has one or more of the three dimensions, length, breadth, and thickness., Anything of which greater or less can be predicated, as time, weight, force, and the like., Greatness; grandeur., Greatness, in reference to influence or effect; importance; as, an affair of magnitude.
Extent of dimensions; size; -- applied to things that have length, breath, and thickness., That which has one or more of the three dimensions, length, breadth, and thickness., Anything of which greater or less can be predicated, as time, weight, force, and the like., Greatness; grandeur., Greatness, in reference to influence or effect; importance; as, an affair of magnitude.
That would depend on various factors: the lever's length, width and thickness, its material, and whether it has any defects.
Extent of dimensions; size; -- applied to things that have length, breath, and thickness., That which has one or more of the three dimensions, length, breadth, and thickness., Anything of which greater or less can be predicated, as time, weight, force, and the like., Greatness; grandeur., Greatness, in reference to influence or effect; importance; as, an affair of magnitude.
To much force applied to the leg press has been known to flatten legs.
A force or pressure that attempts to flatten or squeeze a material. forces acting on the body from all direction (generally all 4 directional sides) which result as the compression in body that type of force is called compressional force
Typically it takes between 100 and 170 pounds to crush an empty soda can. It varies depending on the can construction thickness and individual can flaws.A full soda can can support vastly more weight because of the support given by the incompressible liquid inside. It could possibly support upwards of 200+ pounds of force.
For calculating the collapse pressure of a pipe, you first need to calculate the Hoop stress, which is given by :- Stress = Circumferencial Force/(radial thickness*axial length) If the stress crosses this value the pipe would collapse.
multiply the force with length.
[Force] = [ mass x length / time2 ]