4. (Damped mass-spring system with rubber band) We now add damping into the system in Part 3 and obtain dy dy + b dt + k1y + k2h(y) = 10 dt? Repeat the analysis described in Part 2 for this equation.Your report: Address each of the previous items. You may provide illustrations from the computer, but remember that although a good illustration is worth 1000 words, 1000 illustrations are worth nothing. Make sure you use your conclusions about the solutions of these equations to describe how the mass oscillates.

4. (Damped mass-spring system with rubber band) We now add damping into the system in Part 3 and obtain dy dy + b dt + k1y + k2h(y) = 10 dt? Repeat the analysis described in Part 2 for this equation.Your report: Address each of the previous items. You may provide illustrations from the computer, but remember that although a good illustration is worth 1000 words, 1000 illustrations are worth nothing. Make sure you use your conclusions about the solutions of these equations to describe how the mass oscillates.

Name: Hi questions are in the images.Please follow my prevouse question for
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Description: Hi questions are in the images.Please follow my prevouse question for reference they are from one main question.please mark the final answer and write clearly. 4. (Damped mass-spring system with rubber band) We now add damping into the system in Part

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Statements and Logic

Logic is the analysis of general patterns of thoughts without regard to any specific sense of context.

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Question

Hi questions are in the images.

Please follow my prevouse question for reference they are from one main question.

please mark the final answer and write clearly.

4. (Damped mass-spring system with rubber band) We now add damping into the system in Part 3
and obtain
d'y
+ k1y + koh(y)
dt
= 10
dt?
Repeat the analysis described in Part 2 for this equation.Your report: Address each of the previous
items. You may provide illustrations from the computer, but remember that although a good
illustration is worth 1000 words, 1000 illustrations are worth nothing. Make sure you use your
conclusions about the solutions of these equations to describe how the mass oscillates.

3. (Mass-spring system with rubber band but no damping) Once again let b = 0 , but now add the
rubber band to the system. That is, consider the equation
dy
+ kıy + kah(y) = 10
dt?
Use the same value for kj as you used in Part 1 and choose a value of k2 such that
4.5 < k2 < 5.0. Repeat the analysis described in Part 1 for this equation.

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