Hooke's law can be applied to bi-axial stress within its linear elastic range. This means that the relationship between stress and strain in two perpendicular directions is proportional, but only up to a certain point before the material behavior becomes non-linear.
Materials such as metals (e.g. steel, aluminum), rubber, and certain plastics typically obey Hooke's Law of elasticity within their linear elastic range. This means they exhibit a linear relationship between stress and strain when subjected to small deformations.
Hooke's law describes the relationship between the force applied to a spring and the resulting extension or compression of the spring, as long as the material remains in the elastic deformation range of the stress-strain curve. Beyond the elastic limit, the material may exhibit plastic deformation, and Hooke's law may not apply.
Hooke's Law states that the force needed to extend or compress a spring by a distance is directly proportional to that distance. Mathematically, it is expressed as F = kx, where F is the force applied, k is the spring constant, and x is the distance the spring is stretched or compressed.
Boyle's law is not applicable on liquid because the pressure use of that applied on the liquid is the one to be measured not the liquid itself
Hooke's law is valid for most materials within their elastic limits, meaning that deformation is directly proportional to force applied. However, for some materials like rubber and other polymers, Hooke's law may not be applicable due to their complex molecular structures and non-linear stress-strain relationships.
all of them
Robert Hooke's law states that within elastic limit, the strain produced is directly proportional to the stress applied. Hence Stess/strain = constant This constant is known as Modulus of elasticity.
Hello jack cena
Hooke's law of Elasticity.
Hookes law says that stress, s, is proportional to strain,e, as s = E e where E is modulus. Since strain has no units (it is deflection per unit length) the units of E are the same as s. E is the slope of the stress strain diagram.
Hooke's law of elasticity is an approximation that states that the extension of a spring is in direct proportion with the load applied to it.
Hooke's Law relates to the elasticity of elastic objects, such as metal springs, and how they stretch in proportion to the force that acts on them.
Materials such as metals (e.g. steel, aluminum), rubber, and certain plastics typically obey Hooke's Law of elasticity within their linear elastic range. This means they exhibit a linear relationship between stress and strain when subjected to small deformations.
Its all to do with Hookes law................
Yes, Ohms law is applicable in altering current.
law of inertia is applicable during circular motions,e.g. S.H.M.
Ohm's law is applicable to all electrical circuits.