Hooke’s Law

Then, measure in addition to record the distance, thus, between the clamp and typically the bottom of the mass hanger. After that, add one of the 50 gr masses to the planting season. Then, record the real mass of the 55 gr mass selected. Gauge the new distance, s, through the clamp to the bottom part from the hanger. The loads should be measured by simply a digital mass stability. The extension of the spring ought to be measured and recorded simply by using a meter guideline. The weight from the fill attached is added consecutively 10 times to investigate the relationship between the pressure applied plus the extension regarding the spring, and also the springtime constant.

A number of other springs double later on to prove Hooke’ s law which states that will each spring has their own spring constant. The particular result of the experiment shows that the experiment is fairly successful. Using several different springs in typically the experiment proves that the springtime constant can be determined using the Hooke’ s law and using Microsoft excel with drawing the particular graph and discover the lean. The results showed that the difference value in spring constant means that the stiffness of the springs is also different. In case the number of early spring constant larger, so even more stiff the springs are.

So that will, in 5th spring that is very stiff (18. 679) and on the other hand in 3rd early spring that is the the very least stiff (3. 584). Typically the difficulties encountered in conducting this experiment is any time measuring the extension in the spring, as the early spring tend to swings when the mass is attached in addition to this can affect the consequence of the experiment. In inclusion, recognized of the springtime occasionally hits the floor when the number associated with mass is increased plus this affected the effects. This difficulty have been solved by using a retort stand and clamp, which often give an increase the particular stretch in the spring but still easily adjusted.

In conclusion, it could be said that the test is prosperous in verifying benefit of the spring steady. Both the Hooke’ t law and the chart give similar result, thus proving the hypothesis. My suggestion to improve the experiment is to cautiously measure the extension associated with the spring despite the particular variation of the spring. This particular is best dealt together with by carefully observed the spring until it places perfectly so that presently there will be no more actions that may lead to the mistake in calculating the exact extension of the spring.

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