please help with questions 1,2,3,4,5, and 6 because they are altogether for one whole data Physics Laboratory Experiment - Hooke's LawObjective: To be able to measure the elongation of a spring.To be able to determine the spring constant using the data plotted on a graph.Materials: Hooke's Law Apparatus, 4 different slotted masses, graph paperP'rocedure: 1. Set the spring pointer to zero without any added masses.2. Measure the elongation (in cm) while adding the slotted masses inincrements of 10g. Use the mirror to avoid the error of parallax.3. In order to check your results, remove the masses in increments of 10gand place your results on the data table below.Data Table:Elongation (cm)(Adding)Elongation (cm)(Subtracting)Mass Added (g)Force Added'(N)100.IN0.2 cm200.2N0.4 cm300.3 N0.8 cm400.4N11.2cm.500.5 N1.6cm.600.6N2 cm700.7 N.|2.4 cm800.8N2.8 cmt0.9N3.2 Cm9010010.98N3.5 cmQuestions: Place your answers to the following questions on a separate sheet of paper.1. a) What formula is used to convert mass into newtons?b) What must be done before you use this formula?2. Graph Force, (in newtons), vs. Elongation (in cm).Make sure that the independent variable is placed on the X-axis and the dependentvariable is plotted on the Y-axis.3. Using the data from the graph, determine the spring constant, in N/cm. show thework done in calculating this constant.4. If you were to repeat this experiment using a stiffer spring, how would your graphdiffer? Use sample graphs to compare.5. Predict the elongation if a 150g mass was added. Show all work!!!!6. Is there a limit to how much mass can be added and still have the spring regain itsoriginal form when the masses are removed? Explain.

Name: please help with questions 1,2,3,4,5, and 6 because they are altogethe
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Description: please help with questions 1,2,3,4,5, and 6 because they are altogether for one whole data Physics Laboratory Experiment - Hooke's LawObjective: To be able to measure the elongation of a spring.To be able to determine the spring constant using the da

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Data Table: Elongation (cm) (Adding) Elongation (cm) (Subtracting) Mass Added (g) Force Added'(N) 10 0.IN 0.2 cm 20 0.2N 0.4 cm 30 0.3 N 40 0.4 N 1.2 cm 50 0.5 N 1.6cm 60 0.6N 2cm 70 0.7 N. 2.4 cm 80 0.8N 2.8 cm 0.9N 10.98.N 90 3.2 cm 100 3.5 cm Questions: Place your answers to the following questions on a separate sheet of paper. 1. a) What formula is used to convert mass into newtons? b) What must be done before you use this formula? 2. Graph Force, (in newtons), vs. Elongation (in cm). Make sure that the independent variable is placed on the X-axis and the dependent variable is plotted on the Y-axis. 3. Using the data from the graph, determine the spring constant, in N/cm. show the work done in calculating this constant. 4. If you were to repeat this experiment using a stiffer spring, how would your graph differ? Use sample graphs to compare. 5. Predict the elongation if a 150g mass was added. Show all work!!!! 6. Is there a limit to how much mass can be added and still have the spring regain its original form when the masses are removed? Explain.

Data Table: Elongation (cm) (Adding) Elongation (cm) (Subtracting) Mass Added (g) Force Added'(N) 10 0.IN 0.2 cm 20 0.2N 0.4 cm 30 0.3 N 40 0.4 N 1.2 cm 50 0.5 N 1.6cm 60 0.6N 2cm 70 0.7 N. 2.4 cm 80 0.8N 2.8 cm 0.9N 10.98.N 90 3.2 cm 100 3.5 cm Questions: Place your answers to the following questions on a separate sheet of paper. 1. a) What formula is used to convert mass into newtons? b) What must be done before you use this formula? 2. Graph Force, (in newtons), vs. Elongation (in cm). Make sure that the independent variable is placed on the X-axis and the dependent variable is plotted on the Y-axis. 3. Using the data from the graph, determine the spring constant, in N/cm. show the work done in calculating this constant. 4. If you were to repeat this experiment using a stiffer spring, how would your graph differ? Use sample graphs to compare. 5. Predict the elongation if a 150g mass was added. Show all work!!!! 6. Is there a limit to how much mass can be added and still have the spring regain its original form when the masses are removed? Explain.

Principles of Physics: A Calculus-Based Text

5th Edition

ISBN:9781133104261

Author:Raymond A. Serway, John W. Jewett

Publisher:Raymond A. Serway, John W. Jewett

Chapter6: Energy Of A System

Section: Chapter Questions

Problem 69P

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