A 4-kg block A slides towards a double spring with corresponding spring constant as shown. The coefficient of kinetic friction between the block and inclined plane is μ = 0.2. (a) Determine the maximum distance d that block A would reach. Neglect the mass and width of the place that is attached to spring B Also, note that both springs are uncompressed prior to the impact of the block Hint: There is still friction between the block and the place even during the compression of the spring (use g= 9.807 m/s²) VA= 5.421 m/s KB = 400 N/m kc 1000 N/m 0.5m B C ming 5m d A

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
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A 4-kg block A slides towards a double spring with corresponding spring constant as shown. The coefficient of kinetic
friction between the block and inclined plane is μ = 0.2.
(a) Determine the maximum distance d that block A would reach. Neglect the mass and width of the place that is attached to
spring B
Also, note that both springs are uncompressed prior to the impact of the block
Hint: There is still friction between the block and the place even during the compression of the spring
(use g= 9.807 m/s²)
VA= 5.421 m/s
KB = 400 N/m
kc = 1000 N/m
0.5m
B
Amning
C
с
5m
d
3
A
Transcribed Image Text:A 4-kg block A slides towards a double spring with corresponding spring constant as shown. The coefficient of kinetic friction between the block and inclined plane is μ = 0.2. (a) Determine the maximum distance d that block A would reach. Neglect the mass and width of the place that is attached to spring B Also, note that both springs are uncompressed prior to the impact of the block Hint: There is still friction between the block and the place even during the compression of the spring (use g= 9.807 m/s²) VA= 5.421 m/s KB = 400 N/m kc = 1000 N/m 0.5m B Amning C с 5m d 3 A
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