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Provide the following: Computation, Graph (answer the question below the highlighted GRAPH), Remarks and Conclusion , and then a nswer the following problems . (IMAGES

Provide the following: Computation, Graph (answer the question below the highlighted GRAPH), Remarks and Conclusion, and then answer the following problems.

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Find the area bounded by the curve or graph and the two axes on the maximum point plotted. What does this area represent? Check this area by the equation W=1/2kx where k=force constant and x=the total extension. Area enclosed = W =1/2kx2= REMARKS AND CONCLUSIONS QUESTIONS AND PROBLEMS 1. The force constant of a spring is 5.51b. Per inch. How much work is done in compressing the spring 2.5 inches? 2. A steel wire 1000 ft. long is half (500 ft.) of 1/8 inch wire and half 3/16 inch wire. The whole is stretched 4.5 inches. How much is the elongation of each half? 3. A spring 8" long stands vertically. It has a force constant of 20 1b. per inch. A weight of 28 lbs. drops vertically on the spring and shortens it by 2.8 inches. From what height does the weight drop? ANSWERS:OBJECTIVE: To verify Hooke's Law of elasticity as applied to spring. RECORD OF DATA: PUTTING OF WEIGTHS REMOVING OF WEIGHTS TRIAL SCALE SCALE WEIGHTS RDG. EXTENSION K WEIGHTS RDG. EXTENSION K H 200g 5.334 cm 500g 16.129cm II 300g 8.89 cm 400g 11.5443 cm III 400g 11.5443 cm 300g 7.7343cm IV 500g 16.129 cm 200g 5.207 cm Average of k : Average of k : COMPUTATION: GRAPH

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