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Direction: Place a raisin or marshmallow on the end of a stick of spaghetti. Shake your hands back and forth to make the pasta/raisin system oscillate. Materials: Pasta and Raisins/Marshmallows A. Does the period depend on the mass? B. Does the period depend on the length? Guide Questions: 1. Do you think this system motion would fall under the classification of simple harmonic motion? Provide as much evidences as you can for your answer. 2. Do your answers to A and B above matches a spring/mass system or a pendulum? How so? 3. Do you think this system can be modeled as pendulum, spring, or neither? What are your reasons for each?

Direction: Place a raisin or marshmallow on the end of a stick of spaghetti. Shake your hands back and forth to make the pasta/raisin system oscillate. Materials: Pasta and Raisins/Marshmallows A. Does the period depend on the mass? B. Does the period depend on the length? Guide Questions: 1. Do you think this system motion would fall under the classification of simple harmonic motion? Provide as much evidences as you can for your answer. 2. Do your answers to A and B above matches a spring/mass system or a pendulum? How so? 3. Do you think this system can be modeled as pendulum, spring, or neither? What are your reasons for each?

College Physics
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Direction: Place a raisin or marshmallow on the end of a stick of
spaghetti. Shake your hands back and forth to make the
pasta/raisin system oscillate.

Materials: Pasta and Raisins/Marshmallows

A.
Does the period depend on the mass?

B.
Does the period depend on the length?

Guide Questions:

1. Do you think this system motion would fall under the classification of simple harmonic
motion? Provide as much evidences as you can for your answer.

2. Do your answers to A and B above matches a spring/mass system or a pendulum? How so?

3. Do you think this system can be modeled as pendulum, spring, or neither? What are your
reasons for each?

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