Longitudinal stress of a ship created by hogging and sagging.it can be very severe and can caused ship to break up.
Tensile stress provides the best resistance when applied in a longitudinal direction. This type of stress occurs when forces are applied to stretch an object, causing it to pull apart. Materials like steel and Kevlar are known for their high resistance to tensile stress.
Longitudinal stress is the stress experienced by a material when it is subjected to forces that act along its length, typically due to tension or compression. This type of stress is calculated as the force applied per unit area and can lead to deformation, such as stretching or shortening, depending on the nature of the applied load. It is crucial in engineering and materials science for analyzing the behavior of structures and components under axial loads.
The stress on a bolt under longitudinal force is the total force on the bolt divided by the stress area. The stress area is a little bigger than the minor diameter area, calculated from the average of the minor diameter and pitch diameter. The total force on the bolt is its torque preload plus the (bolt stiffness/(bolt +member stiffness) x (externally applied load )
Gilbert Finley Monell has written: 'Automatic control systems for longitudinal motion of semisubmerged ships'
It takes a lot more stress and force to break a weld than it does to pop a rivet.
I have never studied physics, but I will share my understanding of longitudinal stress.Everything has a tensile strength and a bond, whether fibrous or molecular, will fail in time if there is continuous pull on it in opposing directions. I will receive any feedback graciously and gratefully
The circumferential stress is given as s2 = pR/t where p is pressure and t thickness and R radius The longitudinal stress is given as s1 = pR/2t where p is pressure and t thickness R = 750 mm and t = 15 mm so that s2 = 60 N/mm squared and s1 = 30 N/mm squared
In the Poisson's ratio formula, Poisson's ratio is directly related to Young's modulus. The formula is: Poisson's ratio (Lateral Strain / Longitudinal Strain) - (Transverse Stress / Longitudinal Stress) 1 / 2 (Young's Modulus / Shear Modulus). This shows that Poisson's ratio is inversely proportional to Young's modulus.
Sound waves are longitudinal.
Sound, at least in gases like air, can only propagate as a longitudinal wave.
A compression wave is another name for a longitudinal wave.
Longitudinal is vibration in the direction of the wave.