I need your help expert.The system shown below is in equilibrium. Spring 3 is known to have a change in length of 10 cm. The magnitude of the compressive force in Spring 2 is 15% more than the magnitude of force P, while the magnitude of the compressive force in Bar 1 is 100 N less than that in Spring 2. If the spring constants of Springs 2 and 3 are 625 and 1200 N/m, respectively, determine the following: a. magnitude of forces P (in N) and F (in N) b. tension (in N) in cable ABC c. mass (in kg) of Block A d. compressive force in Bar 1 e. change in length (in cm) of Spring 2 Draw the complete FBD’s of Block A, Hook C and Pulley E. (Note: Below are the final answers, kindly match your answer on this. Thank you) Answer: P = 131.2831 N, F = 87.1569 N, TABC = 110.7024 N, mA = 15.6338 kg, F1 = 50.9756 N, s2 = 24.1561 cm 3. The system shown below is in equilibrium. Spring 3 is known to have a change in length of 10 cm. Themagnitude of the compressive force in Spring 2 is 15% more than the magnitude of force P, while themagnitude of the compressive force in Bar 1 is 100 N less than that in Spring 2. If the spring constants ofSprings 2 and 3 are 625 and 1200 N/m, respectively, determine the following:a. magnitude of forces P (in N) and F (in N)b. tension (in N) in cable ABCc. mass (in kg) of Block Ad. compressive force in Bar 1e. change in length (in cm) of Spring 2Draw the complete FBD's of Block A, Hook C and Pulley E.B707760AE(Note: Below are the final answers, kindly match your answer on this. Thank you)Answer: P = 131.2831 N, F = 87.1569 N, TABC = 110.7024 N, mA = 15.6338 kg, F1 = 50.9756 N, s2 =24.1561 cm DB707702A60EF3

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Answered: The system shown below is in…

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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I need your help expert.

The system shown below is in equilibrium. Spring 3 is known to have a change in length of 10 cm. The magnitude of the compressive force in Spring 2 is 15% more than the magnitude of force P, while the magnitude of the compressive force in Bar 1 is 100 N less than that in Spring 2. If the spring constants of Springs 2 and 3 are 625 and 1200 N/m, respectively, determine the following: a. magnitude of forces P (in N) and F (in N) b. tension (in N) in cable ABC c. mass (in kg) of Block A d. compressive force in Bar 1 e. change in length (in cm) of Spring 2 Draw the complete FBD’s of Block A, Hook C and Pulley E. (Note: Below are the final answers, kindly match your answer on this. Thank you) Answer: P = 131.2831 N, F = 87.1569 N, TABC = 110.7024 N, mA = 15.6338 kg, F1 = 50.9756 N, s2 = 24.1561 cm

3. The system shown below is in equilibrium. Spring 3 is known to have a change in length of 10 cm. The
magnitude of the compressive force in Spring 2 is 15% more than the magnitude of force P, while the
magnitude of the compressive force in Bar 1 is 100 N less than that in Spring 2. If the spring constants of
Springs 2 and 3 are 625 and 1200 N/m, respectively, determine the following:
a. magnitude of forces P (in N) and F (in N)
b. tension (in N) in cable ABC
c. mass (in kg) of Block A
d. compressive force in Bar 1
e. change in length (in cm) of Spring 2
Draw the complete FBD's of Block A, Hook C and Pulley E.
B
70
77
60
A
E
(Note: Below are the final answers, kindly match your answer on this. Thank you)
Answer: P = 131.2831 N, F = 87.1569 N, TABC = 110.7024 N, mA = 15.6338 kg, F1 = 50.9756 N, s2 =
24.1561 cm

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