Block A of 500-kg mass is subjected to a towing force F = 2000t² + 3000t (Newtons)F= 2000r² + 3000 (Newtons), where "tt" is in seconds. If the initial velocity of the block is 6 m/s, determine the distance traveled after 4 seconds. The block is being towed at a surface inclined at 45° and the coefficient of kinetic friction between these is 0.2. O 241.18 m O 108.24 m O 240.21 m O 106.74 m O 115.64 m O 106.04 m O 215.73 m O 108.96 m
Block A of 500-kg mass is subjected to a towing force F = 2000t² + 3000t (Newtons)F= 2000r² + 3000 (Newtons), where "tt" is in seconds. If the initial velocity of the block is 6 m/s, determine the distance traveled after 4 seconds. The block is being towed at a surface inclined at 45° and the coefficient of kinetic friction between these is 0.2. O 241.18 m O 108.24 m O 240.21 m O 106.74 m O 115.64 m O 106.04 m O 215.73 m O 108.96 m
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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topic: dynamics of rigid bodies (please refer to the choices given)
![Block A of 500-kg mass is subjected to a towing force F= 2000t² + 3000t (Newtons)F = 2000+² + 3000t (Newtons), where "t" is in
seconds. If the initial velocity of the block is 6 m/s, determine the distance traveled after 4 seconds. The block is being towed at a
surface inclined at 45° and the coefficient of kinetic friction between these is 0.2.
O 241.18 m
O 108.24 m
O 240.21 m
O 106.74 m
O 115.64 m
106.04 m
215.73 m
O 108.96 m](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F1ad9ac9e-d5c7-4676-a235-a38c8c802053%2F3d415afc-8899-485d-9a05-44c577e217fc%2Fpsfj5ps_processed.png&w=3840&q=75)
Transcribed Image Text:Block A of 500-kg mass is subjected to a towing force F= 2000t² + 3000t (Newtons)F = 2000+² + 3000t (Newtons), where "t" is in
seconds. If the initial velocity of the block is 6 m/s, determine the distance traveled after 4 seconds. The block is being towed at a
surface inclined at 45° and the coefficient of kinetic friction between these is 0.2.
O 241.18 m
O 108.24 m
O 240.21 m
O 106.74 m
O 115.64 m
106.04 m
215.73 m
O 108.96 m
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