5. In Figure 5, a 0.1-kg projectile is launched into a 10-kg block, initially at rest with an uncompressed spring secured at both ends. Calculate the maximum horizontal displacement, X, of the spring and the resulting oscillation period of the block and the embedded projectile. k = 3 kN/m 0.1 kg ww 500 m/s 10 kg Figure 5: A 0.1-kg projectile being launched into a 10-kg block
5. In Figure 5, a 0.1-kg projectile is launched into a 10-kg block, initially at rest with an uncompressed spring secured at both ends. Calculate the maximum horizontal displacement, X, of the spring and the resulting oscillation period of the block and the embedded projectile. k = 3 kN/m 0.1 kg ww 500 m/s 10 kg Figure 5: A 0.1-kg projectile being launched into a 10-kg block
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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In Figure 5, a 0.1-kg projectile is launched into a 10-kg block, initially at rest with an uncompressed spring secured at both ends. Calculate the maximum horizontal displacement, X, of the spring and the resulting oscillation period of the block and the embedded projectile.
Transcribed Image Text:5. In Figure 5, a 0.1-kg projectile is launched into a 10-kg block, initially at rest with an
uncompressed spring secured at both ends. Calculate the maximum horizontal
displacement, X, of the spring and the resulting oscillation period of the block and the
embedded projectile.
k = 3 kN/m
0.1 kg
ww
500 m/s
10 kg
Figure 5: A 0.1-kg projectile being launched into a 10-kg block
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