d. d/2 d/2 0.2 m 30 2 m M cable c 2 m 0.2 m- The gantry shown in the above diagram is made of two homogeneous members. If the magnitude of the tension in the cable, T = 2.5 kN, the mass of the vertical member, mvertical member= 200 kg (this weight may be applied at the vertical member's centroid, C1), mhorizontal member= 200 kg (this weight may be applied at the horizontal member's centroid, C2), Mload = 100 kg, and d = 4 m, calculate the following: The resultant moment at the fully fixed base at 0, MRo (COonsider Anti-Clockwise moments as positive). Please provide the answer in kilo Newton-metres and report to three significant figures. Please include the unit ("kNm") within your answer (e.g. if the calculated answer was 55.562 Newton-metres please input: 55.6 kNm).
d. d/2 d/2 0.2 m 30 2 m M cable c 2 m 0.2 m- The gantry shown in the above diagram is made of two homogeneous members. If the magnitude of the tension in the cable, T = 2.5 kN, the mass of the vertical member, mvertical member= 200 kg (this weight may be applied at the vertical member's centroid, C1), mhorizontal member= 200 kg (this weight may be applied at the horizontal member's centroid, C2), Mload = 100 kg, and d = 4 m, calculate the following: The resultant moment at the fully fixed base at 0, MRo (COonsider Anti-Clockwise moments as positive). Please provide the answer in kilo Newton-metres and report to three significant figures. Please include the unit ("kNm") within your answer (e.g. if the calculated answer was 55.562 Newton-metres please input: 55.6 kNm).
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
Related questions
Question
Please help me to answer this:
![d
d/2
d/2
0.2 m
30
2 m
MOAD
cable,
2 m
0.2 m-
The gantry shown in the above diagram is made of two homogeneous members. If the
magnitude of the tension in the cable, T = 2.5 kN, the mass of the vertical member, mvertical
member= 200 kg (this weight may be applied at the vertical member's centroid, C1), mhorizontal
member= 200 kg (this weight may be applied at the horizontal member's centroid, C2), Mioad
= 100 kg, and d = 4 m, calculate the following:
The resultant moment at the fully fixed base at 0, MRo (Consider Anti-Clockwise moments as
positive). Please provide the answer in kilo Newton-metres and report to three significant
figures. Please include the unit ("kNm") within your answer (e.g. if the calculated answer was
55.562 Newton-metres please input: 55.6 kNm).
Answer:](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F1f8bcb4e-454e-4e1e-bcd2-6009ef0f0c34%2F678eab95-6a83-4b8c-9073-ce411e190c8c%2F1tjmtiu_processed.png&w=3840&q=75)
Transcribed Image Text:d
d/2
d/2
0.2 m
30
2 m
MOAD
cable,
2 m
0.2 m-
The gantry shown in the above diagram is made of two homogeneous members. If the
magnitude of the tension in the cable, T = 2.5 kN, the mass of the vertical member, mvertical
member= 200 kg (this weight may be applied at the vertical member's centroid, C1), mhorizontal
member= 200 kg (this weight may be applied at the horizontal member's centroid, C2), Mioad
= 100 kg, and d = 4 m, calculate the following:
The resultant moment at the fully fixed base at 0, MRo (Consider Anti-Clockwise moments as
positive). Please provide the answer in kilo Newton-metres and report to three significant
figures. Please include the unit ("kNm") within your answer (e.g. if the calculated answer was
55.562 Newton-metres please input: 55.6 kNm).
Answer:
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