Blocks A and B are held in place in a plane inclined at an angle 8. Block B, located 1m from the bottom of the indline, is connected by a cable with block A which is 1.7m from the bottom of the indine. The other end of Block A is connected by a cable to a wall on the topmost of the Incline. The cables as parallel to the indlined plane. The coefficients of static and kinetic frictions are 0.38 and 0.27, respectively. Determine the ff: 1. Tensions in the cable connecting the blocks and, in the cable connecting block A to the wall. 2. If the cable connecting Blocks A and B is cut, what would be the acceleration of block B? 3. If only the cable connecting block A to the wall is cut, what would be the acceleration of the blocks? What is the tension in the cabl connecting blocks A and B? 4. Explain the answers in letter Cin comparison with letter B. Where: mass of block B = first two digits of your student number plus the last digit of your student number divided by 1.8 mass of block A = mass of block B divided by 1.8

Blocks A and B are held in place in a plane inclined at an angle 8. Block B, located 1m from the bottom of the indline, is connected by a cable with block A which is 1.7m from the bottom of the indine. The other end of Block A is connected by a cable to a wall on the topmost of the Incline. The cables as parallel to the indlined plane. The coefficients of static and kinetic frictions are 0.38 and 0.27, respectively. Determine the ff: 1. Tensions in the cable connecting the blocks and, in the cable connecting block A to the wall. 2. If the cable connecting Blocks A and B is cut, what would be the acceleration of block B? 3. If only the cable connecting block A to the wall is cut, what would be the acceleration of the blocks? What is the tension in the cabl connecting blocks A and B? 4. Explain the answers in letter Cin comparison with letter B. Where: mass of block B = first two digits of your student number plus the last digit of your student number divided by 1.8 mass of block A = mass of block B divided by 1.8

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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