Theory: . Hence, the equation: F=kX is deduced, where k is a constant dependent on the spring used, known as the spring constant. Hooke's law states that the force needed to extend or compress a spring or elastic object by some distance is directly proportional to that distance. PDF Experiment 2: Hooke's Law - GitHub Pages Data Analysis; Experimental conclusions and evaluation. Hooke's Law Lab - Michelle's Science Portfolio When a weighted object is hung on an elastic material, it causes it to stretch. 1. It is supported by the formula of force, F = kx, where F is the applied force, k is the spring . 7. Title: Hooke's Law experiment Pawel Kostkowski psk1g14 November 14, 2014 "I am aware of the requirements of good academic practice and the potential penalties for any breaches". sources of error in kirchhoff's law experiment Robert Hooke law 1660. Based on this observation, it can be concluded that the second material has a smaller spring constant and is stiffer than material 1. . PDF DATA ANALYSIS USING GRAPHS - Illinois Institute of Technology Conclusion: PDF PHYS 1401General Physics I Hooke's Law, Simple Harmonic Motion Hooke's law - Forces and movement - KS3 Physics - BBC Bitesize Read full chapter. We will determine the spring constant, , for an individual spring using both Hooke's Law and the properties of an oscillating spring system.It is also possible to study the effects, if any, that amplitude has on the period of a body experiencing simple harmonic motion. Hooke's Law will be verified for a spring and the force constant will be calculated by . Robert Hooke was a physicist who stated Hooke's Law in 1660. 6. Materials that obey Hooke's law are called Hookean Materials.
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