What are the spring and damping constants for a mass on spring problem?

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The problem involves a 1000kg mass dropped from 10.0m onto a massless plank supported by a spring-dashpot system, requiring the system to settle 0.20cm lower than its initial position without overshooting. The key objectives are to determine the spring constant (k) and the damping constant (b), along with calculating the time needed for the platform to settle within 1.00mm of the final position. The discussion emphasizes the need for these constants to ensure optimal performance of the system. The calculations will involve principles of dynamics and oscillatory motion. Understanding the relationship between mass, spring constant, and damping is crucial for solving this problem effectively.
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Ive got this problem to do and could really use some help. here it is.

Problem: A 1000kg mass is dropped from 10.0m onto a massless plank supported with a spring dashpot system.(the dashpot provides damping) The spring has a constant k and the dashpot characterized by damping constant b. It is desired that the mass drops on to the plank resulting in the system settling at a new equilibrium 0.20cm lower than the initial position as quickly as possible without overshooting this equilibrium.

Thanks
 
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So the question is to find k and b, is that it?
 
sorry I completely forgot to put what we are trying to find, find a) the spring constant b) the damping constant c) find to two sig figs the time required for the platform to settle within 1.00mm of the final position
 

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