2|A block with a mass of m = 5.5kg, is supported by two massless pulleys as shown to the right →. (The tension in a rope is the same all along the rope, even if it wraps around a pulley.) a. Draw a free body diagram for a system that includes only the block. F2 b. Draw a free body diagram for a system that includes only the small pulley. m c. Calculate the tension in the bottom rope, F, if the block is hanging motionless. (Hint: which free body diagram above is the easiest to use to determine this?) d. Calculate the tension in the top rope, F, if the block is hanging motionless. (Hint: which free body diagram above is the easiest to use to determine this?) e. Calculate the tension in the bottom rope, F,, if the block is moving with a constant velocity of 5.0m/s ↑.
2|A block with a mass of m = 5.5kg, is supported by two massless pulleys as shown to the right →. (The tension in a rope is the same all along the rope, even if it wraps around a pulley.) a. Draw a free body diagram for a system that includes only the block. F2 b. Draw a free body diagram for a system that includes only the small pulley. m c. Calculate the tension in the bottom rope, F, if the block is hanging motionless. (Hint: which free body diagram above is the easiest to use to determine this?) d. Calculate the tension in the top rope, F, if the block is hanging motionless. (Hint: which free body diagram above is the easiest to use to determine this?) e. Calculate the tension in the bottom rope, F,, if the block is moving with a constant velocity of 5.0m/s ↑.
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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D-E please! Thank you in advance
![2 A block with a mass of m = 5.5kg, is supported by two massless
pulleys as shown to the right →. (The tension in a rope is the same all
along the rope, even if it wraps around a pulley.)
a. Draw a free body diagram for a system that includes only the
block.
F2
b. Draw a free body diagram for a system that includes only the small
pulley.
т
c. Calculate the tension in the bottom rope, F,, if the block is hanging motionless. (Hint:
which free body diagram above is the easiest to use to determine this?)
d. Calculate the tension in the top rope, F, if the block is hanging motionless. (Hint:
which free body diagram above is the easiest to use to determine this?)
e. Calculate the tension in the bottom rope, F, if the block is moving with a constant
velocity of 5.0m/s ↑.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fa0b23492-bb9c-40e5-8bbe-15f818e73ac0%2Fef1d94a5-2e8b-407b-8feb-6bb5fec74a0a%2Fnp89go_processed.jpeg&w=3840&q=75)
Transcribed Image Text:2 A block with a mass of m = 5.5kg, is supported by two massless
pulleys as shown to the right →. (The tension in a rope is the same all
along the rope, even if it wraps around a pulley.)
a. Draw a free body diagram for a system that includes only the
block.
F2
b. Draw a free body diagram for a system that includes only the small
pulley.
т
c. Calculate the tension in the bottom rope, F,, if the block is hanging motionless. (Hint:
which free body diagram above is the easiest to use to determine this?)
d. Calculate the tension in the top rope, F, if the block is hanging motionless. (Hint:
which free body diagram above is the easiest to use to determine this?)
e. Calculate the tension in the bottom rope, F, if the block is moving with a constant
velocity of 5.0m/s ↑.
![OANSWERS
1 d. 260N; e. 298N ↑;
2 c. 53.9N; d. 27.0N; e. 53.9N; f. 37.4N; g. 17.5m/s² ↑;
3
4| both the same
5 the one block system on the right
6 a. 122N; b. 245N; c. 35.4kg; d. 9.57kg; e. 100kg](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fa0b23492-bb9c-40e5-8bbe-15f818e73ac0%2Fef1d94a5-2e8b-407b-8feb-6bb5fec74a0a%2Fg1s3x3k_processed.jpeg&w=3840&q=75)
Transcribed Image Text:OANSWERS
1 d. 260N; e. 298N ↑;
2 c. 53.9N; d. 27.0N; e. 53.9N; f. 37.4N; g. 17.5m/s² ↑;
3
4| both the same
5 the one block system on the right
6 a. 122N; b. 245N; c. 35.4kg; d. 9.57kg; e. 100kg
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