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The objectives of this experiment are: (1) to study simple harmonic motion, (2) to learn the requirements for simple harmonic motion, (3) to learn Hooke's Law, (4) to verify Hooke's Law for a simple spring, (5) to measure the force constant of a spiral spring, (6) to learn the definitions of period and frequency and the relationships between th...
Hooke’s law is a mathematically exact estimate of a particular force. The linear relationship between the force and the displacement is no longer met if spring is stretched too far. ####### k = ΔΔWx. The spring constant k depends on the material for a helical spring.
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Hooke’s Law Lab Report Max Binkle, 12 MPW, 13.10.2013 1. Aim In the experiment I wanted to test whether strawberry laces obey Hooke’s Law, when they break and – if they obey the law – where their elastic limit is.
Purpose: The purpose of this experiment is to understand Hooke’s law regarding the elasticity of the springs and how adding extra weight would affect the restoration force. According to Hooke’s law, a restoring force of a spring or other elastic material is considered to be directly proportional to the distance that the spring is stretched ...
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Hooke’s law describes the behaviour of springs and elastic materials. Mathematically, it is expressed as F = k x , where F is the force provided by the spring when it is displaced a distance x.
Theoretical Knowledge of Hooke's Law; According to Hooke's Law, a spring should be as long as x from its normal length. In order to stretch, we need a force defined as F = kx.
Jan 13, 2017 · Hooke's Law. An ideal spring is remarkable in the sense that it is a system where the generated force is linearly dependent on how far it is stretched. Hooke's law describes this behavior, and we would like to verify this in lab today.
