The Simulation

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Masses and Springs
Hooke's LawIntroduction | Getting Started | Preknowledge | The Simulation | Activities | Conclusions | Resources and Links | DefinitionsTutorial.png




Exploration

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Exploration

Explore the Mass and Spring simulation below for several minutes:
  • Try clicking around
  • Try dragging objects
  • Try sliding sliders
  • Try making the masses oscillate without stopping
  • Try stopping the masses so they are in equilibrium

<flash>file=MassSpringLab2.swf


Now that you have spent several minutes familiarizing yourself with the Mass and Spring simulation, complete the following multi-choice question. Feel free to use the simulation to help you answer the question.


Free Body Diagrams

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Free Body Diagrams

 
One of the masses is hooked onto a spring. The mass and spring soon come to rest. Which free body diagram best represents the forces on the hanging mass when it is at rest?
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Think about the sum of the forces when an object is in equilibrium.


(a) Image FBD1 for this MCQ

Absolutely Correct!


(b) Image FBD2 for this MCQ

Incorrect, the forces are not the same magnitude.


(c) Image FBD3 for this MCQ

Incorrect, the forces are not the same magnitude.



Reflection

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Reflection

Forces in equilibrium is a concept that will be very useful when completing the remainder of the activity.

The best answer to the question above is (a) because the magnitude of the object's weight (W) is equal to the magnitude of the (upward) force from the spring (Fs).

 



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