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Test: Design Against Static Load - 1 - Mechanical Engineering MCQ


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Test: Design Against Static Load - 1 - Question 1

A coil chain of a crane required to carry a maximum load of 100 kN, is shown in following figure.

What is the diameter of the link stock, if the permissible tensile stress in the link material is not to exceed 150 MPa?

Detailed Solution for Test: Design Against Static Load - 1 - Question 1

Test: Design Against Static Load - 1 - Question 2

A cast iron link, as shown in following figure, is required to transmit a steady tensile load of 50 kN. What is the maximum tensile stress induced?

Detailed Solution for Test: Design Against Static Load - 1 - Question 2

There are two type of c/s area in the given cast iron link, one is solid c/s (20 mm x 45 mm) and other is hollow c/s at B-B

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Test: Design Against Static Load - 1 - Question 3

A hydraulic press exerts a total load of 4 MN. This load' is carried by two steel rods, supporting the upper head of the press. If the safe stress is 100 MPa and E =210 kN/mm2, what is the design diameter of supporting steel rods?

Detailed Solution for Test: Design Against Static Load - 1 - Question 3

Load carried by one rod,

Test: Design Against Static Load - 1 - Question 4

What is the force required to punch a circular blank of 50 mm diameter, in a plate of 5 mm thick?

The ultimate shear stress of the plate is 350 N/mm2.

Detailed Solution for Test: Design Against Static Load - 1 - Question 4

Test: Design Against Static Load - 1 - Question 5

A pull of 80 kN is transmitted from a bar X to the bar through a pin as shown in following figure. If the maximum permissible tensile stress in the bars is 100 N/mm2 and the permissible shear stress in the pin is 80 N/mm2, what is the diameter of the pin?

Detailed Solution for Test: Design Against Static Load - 1 - Question 5

Permissible shear stress

Test: Design Against Static Load - 1 - Question 6

A journal 30 mm in diameter supported in sliding bearings has a maximum end reaction of 2500 N. What is the length of sliding bearing for an allowable bearing pressure of 5 N/mm2?

Detailed Solution for Test: Design Against Static Load - 1 - Question 6

Projected area,

A = l x d =30 l mm2

Bearing pressure,

Test: Design Against Static Load - 1 - Question 7

A mild steel rod of 15 mm diameter was tested for tensile strength with the gauge length of 60 mm. Following observations were recorded: Final length = 80 mm; Final diameter = 10 mm; Yield load = 4 kN and Ultimate load = 6.5 kN.
Based on the above tensile test data, match the following;

Detailed Solution for Test: Design Against Static Load - 1 - Question 7

Original area,

Final area,

% reduction in area

% reduction in length

Test: Design Against Static Load - 1 - Question 8

The factor of safety for steel and for steady load is

Test: Design Against Static Load - 1 - Question 9

The ratio of the ultimate stress to the design stress is known as

Test: Design Against Static Load - 1 - Question 10

The stress in the bar when load is applied suddenly is Xtimes as compared to the stress induced due to gradually applied load. The value of X is

Detailed Solution for Test: Design Against Static Load - 1 - Question 10

The energy gained by the system in the form of strain energy

The potential energy lost by the weight 

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