A 10 kg block, as seen in figure 1, is dropped from a certain height onto an uncompressed spring with spring constant of k = 622.6 N/m. The drop causes the spring to compress for 1 meter. The wall surrounding the block provides a constant resistance/friction of 2.5 N. Using principle of work and energy, calculate the speed of the block the moment it leaves the spring when it is released from compression. (answer in m/s (only the value) with a single decimal place)
A 10 kg block, as seen in figure 1, is dropped from a certain height onto an uncompressed spring with spring constant of k = 622.6 N/m. The drop causes the spring to compress for 1 meter. The wall surrounding the block provides a constant resistance/friction of 2.5 N. Using principle of work and energy, calculate the speed of the block the moment it leaves the spring when it is released from compression. (answer in m/s (only the value) with a single decimal place)
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Transcribed Image Text:Block
10 kg
Wall
Figure 1
Transcribed Image Text:A 10 kg block, as seen in figure 1, is dropped from a certain height onto an uncompressed spring with spring constant of k =
622.6 N/m. The drop causes the spring to compress for 1 meter. The wall surrounding the block provides a constant
resistance/friction of 2.5 N.
Using principle of work and energy, calculate the speed of the block the moment it leaves the spring when it is released from
compression. (answer in m/s (only the value) with a single decimal place)
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