13.30 A 10-kg block is attached to spring A and connected to spring B by a cord and pulley. The block is held in the position shown with both springs unstretched when the support is removed and the block is released with no initial velocity. Knowing that the constant of each spring is 2 kN/m, determine (a) the velocity of the block after it has moved down 50 mm, (b) the maximum velocity achieved by the block. k = 2 kN/m B wwwwwww 10 kg A C k = 2 kN/m

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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13.30 A 10-kg block is attached to spring A and connected to spring B by
a cord and pulley. The block is held in the position shown with both
springs unstretched when the support is removed and the block is
released with no initial velocity. Knowing that the constant of each
spring is 2 kN/m, determine (a) the velocity of the block after it has
moved down 50 mm, (b) the maximum velocity achieved by the
block.
k = 2 kN/m
B
wwwwwww
10 kg
A
C
k = 2 kN/m
Transcribed Image Text:13.30 A 10-kg block is attached to spring A and connected to spring B by a cord and pulley. The block is held in the position shown with both springs unstretched when the support is removed and the block is released with no initial velocity. Knowing that the constant of each spring is 2 kN/m, determine (a) the velocity of the block after it has moved down 50 mm, (b) the maximum velocity achieved by the block. k = 2 kN/m B wwwwwww 10 kg A C k = 2 kN/m
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