WebHooke's Law; Vectors; Spring Constant; Description Stretch and compress springs to explore the relationships between force, spring constant, displacement, and potential energy! … Web14. nov 2024 · Hooke’s law can be investigated by measuring how much a string stretches from a known applied force. The force can easily be calculated by hanging it at the end of an attached string then, using the equation weight = mass x gravity (F = mg). Theory
Experiment 2: Hooke’s Law - GitHub Pages
WebYou can investigate Hooke's Law by measuring how much known forces stretch a spring. A convenient way to apply a precisely-known force is to let the weight of a known mass be … Web2. jún 2024 · Hooke’s Law found that extension is proportional to the downward force acting on the spring. This tells me to find elastic limit when I am doing the experiment using the formula f=ke, which will give me the spring constant. Get quality help now WriterBelle Verified writer Proficient in: Law 4.7 (657) “ Really polite, and a great writer! chloe waters
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WebThis equation expresses what has come to be known as Hooke's Law. ***Your problem in this experiment is to see if the spring on the apparatus obeys Hooke's Law, and find the value of k for your spring.*** The spring potential energy, PEspring or Us , can be written as Us = k x2 APPARATUS : 1. A tripod base 2. A barrel base 3. WebExperiment 2: Hooke’s Law Hooke’s Law is a physical principle that states that a spring stretched (extended) or compressed by some distance produces a restoring force which is directly proportional to said distance. Mathematically, if an extension xis accompanied by a restoring force Fthen they are related by the equation F= kx (1) WebLab 8 Physics Virtual Hooke's Law - Hooke’s Law Virtual Lab Purpose: The students will investigate - Studocu law virtual lab purpose: the students will investigate the relationship … chloe way