II. The thin container shown in Figure II has a diameter of 1.6 m, a thickness of 10 mm and holds a gas at a pressure of 3 MPa. 2R Figure II Q4. Determine the hoop stress at a typical point of the container (a) 60 (N/mm2); (b) 120 (N/mm2); (c) 180 (N/mm2); (d) 240 (N/mm2); (e) none of these Q5. Determine the longitudinal stress at a typical point of the container (a) 60 (N/mm²); (b) 120 (N/mm²); (c) 180 (N/mm2); (d) 240 (N/mm2); (e) none of these Q6. Determine the maximum shear stress at a typical point of the container: (a) 60 (N/mm2); (b) 120 (N/mm²); (c) 180 (N/mm²); (d) 240 (N/mm2); (e) none of these
II. The thin container shown in Figure II has a diameter of 1.6 m, a thickness of 10 mm and holds a gas at a pressure of 3 MPa. 2R Figure II Q4. Determine the hoop stress at a typical point of the container (a) 60 (N/mm2); (b) 120 (N/mm2); (c) 180 (N/mm2); (d) 240 (N/mm2); (e) none of these Q5. Determine the longitudinal stress at a typical point of the container (a) 60 (N/mm²); (b) 120 (N/mm²); (c) 180 (N/mm2); (d) 240 (N/mm2); (e) none of these Q6. Determine the maximum shear stress at a typical point of the container: (a) 60 (N/mm2); (b) 120 (N/mm²); (c) 180 (N/mm²); (d) 240 (N/mm2); (e) none of these
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Could I please get a full written solution on how to answer question 6 for this past paper question please?
![II. The thin container shown in Figure |I has a diameter of 1.6 m, a thickness of 10
mm and holds a gas at a pressure of 3 MPa.
2R
Figure II
Q4.
Determine the hoop stress at a typical point of the container
(a) 60 (N/mm²); (b) 120 (N/mm2); (c) 180 (N/mm2); (d) 240 (N/mm2); (e) none of
these
Q5.
Determine the longitudinal stress at a typical point of the container
(a) 60 (N/mm²); (b) 120 (N/mm2); (c) 180 (N/mm2); (d) 240 (N/mm2); (e) none of
these
Q6.
Determine the maximum shear stress at a typical point of the container:
(a) 60 (N/mm²); (b) 120 (N/mm²); (c) 180 (N/mm²); (d) 240 (N/mm2); (e) none of
these](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F9d23b2ff-c734-41be-8946-dc1e3f9cde0e%2Fdd390f0a-9dee-427c-bd49-e78ab5481e0b%2Fqyi3dxf_processed.jpeg&w=3840&q=75)
Transcribed Image Text:II. The thin container shown in Figure |I has a diameter of 1.6 m, a thickness of 10
mm and holds a gas at a pressure of 3 MPa.
2R
Figure II
Q4.
Determine the hoop stress at a typical point of the container
(a) 60 (N/mm²); (b) 120 (N/mm2); (c) 180 (N/mm2); (d) 240 (N/mm2); (e) none of
these
Q5.
Determine the longitudinal stress at a typical point of the container
(a) 60 (N/mm²); (b) 120 (N/mm2); (c) 180 (N/mm2); (d) 240 (N/mm2); (e) none of
these
Q6.
Determine the maximum shear stress at a typical point of the container:
(a) 60 (N/mm²); (b) 120 (N/mm²); (c) 180 (N/mm²); (d) 240 (N/mm2); (e) none of
these
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