In Determination Of Young Modulus Of Elasticity Of Wire A Force Is Applied And Extension Is Rec

In Determination Of Young Modulus Of Elasticity Of Wire A Force Is Show that the young.s modulus of the material of a wire is equal to the stress required to double the initial length of the wire. assume that hookes law holds good throughout the process. The experimental wire is stretched by adding weights, causing it to elongate. the elongation is measured using a vernier microscope or scale. by analyzing the relationship between the applied load and the extension produced, we can determine the young's modulus of the material.

In Determination Of Young Modulus Of Elasticity Of Wire A Force Is A metal wire is subjected to a tension, and the extension observed is x. if a wire of double the radius, made of same material, is subjected to double the tension, find extension. As the wire stretches, the tape marker moves along the ruler, showing the extension of the wire. this is based on the assumption that the wire stretches the same amount at all points along its length. Two forces f 1 and f 2 act on a thin uniform elastic rod placed in space. force f 1 acts at right end of the rod and f 2 acts exactly at centre of rod as shown (both forces act parallel to length of the rod). A: young’s modulus indicates a material’s resistance to elastic deformation under tensile or compressive stress. a higher young’s modulus indicates a stiffer material.

Determination Of Young S Modulus Of Metal Wire Download Free Pdf Two forces f 1 and f 2 act on a thin uniform elastic rod placed in space. force f 1 acts at right end of the rod and f 2 acts exactly at centre of rod as shown (both forces act parallel to length of the rod). A: young’s modulus indicates a material’s resistance to elastic deformation under tensile or compressive stress. a higher young’s modulus indicates a stiffer material. Q. in determination of young's modulus of elasticity of wire, a force is applied and extension is recorded. initial length of wire is ' 1m '. the curve between extension and stress is depicted then young's modulus of wire will be :. The primary objective of this experiment is to determine the young's modulus of elasticity (y) for the material of a given wire. this is achieved by measuring the wire's elongation (extension) under a known tensile stress, which is applied using slotted weights. The curve between extension and stress is depicted, then young's modulus of wire will be by physics experts to help you in doubts & scoring excellent marks in class 12 exams.