A.At the free and
B.At the centre
C.At the support
D.Any where between free end and centre
E.Any where between free end and support
Related Mcqs:
- A cantilever beam of square section is subjected to a load W at the free end. If the length of the beam is increased and load reduced to half the deflection at the free end as compared to original deflection would be
- A cantilever beam rectangular in cross-section is subbjected to a load W at its free end. If the depth of the beam is doubled and the load is halved, the deflection of the free end as compared to original deflection will be
- A cantilever beam of square section is subjected to a load W at the free end. If the length of the beam is doubled and load reduced to half, the deflection at the free end as compared to original deflection would be
- The bending moment diagram in case of a cantilever beam carrying a linearly varying load from zero at free end to maximum at supported end will be a
- In case of cantilever, irrespective of the type of loading the maximum bendry moment and maximum shear force occur at
- For a beam of length L fixed at end A and simply supported at end B and loaded uniformly by a load W the maximum bending moment will occur at
- If two unequal rolling loads of unequal weight roll along a beam, the maximum bending moment will occur
- For a beam of length L fixed at one end, supported at the other and loaded W at the centre C the maximum bending moment with occur at
- The failure of a material under varying load, after a number of cycles of such load, is known as
- A beam supporting a uniformly distributed load over its entire length L is pinned at one end and passes over a roller support at a distance x from the other end. The value of x such that the greatest bending moment in the beam is as small as possible, will be
