Theory of Machines

A. mass
B. friction
C. inertia
D. resisting force
E. resisting torque

A. L.H.S. = R.H.S
B. L.H.S. > R.H.S
C. L.H.S. < R.H.S
D. there is no such criterion for checking above requirement
E. none of the above

A. I, 3
B. 2, 2
C. 3, 1
D. 4, 0
E. 0, 4

A. completely constrained motion
B. partially constrained motion
C. incompletely constrained motion
D. freely constrained motion
E. none of the above

A. closed pair
B. open pair
C. mechanical pair
D. rolling pair
E. none of the above

A. two links
B. three links
C. four links or more than four links
D. all of the above
E. none of the above

A. second inversion of double slider crank chain
B. third inversion of double slider crank chain
C. second inversion of single slider crank chain
D. third inversion of slider crank chain
E. fourth inversion of double slider crank chain

A. sliding pairs
B. turning pairs
C. rolling pairs
D. higher pairs
E. lower pairs

A. sliding and turning pairs
B. sliding and rotary pairs
C. turning and rotary pairs
D. sliding pairs only
E. turning pairs only

A. gyroscope
B. pantograph
C. valve and valve gears
D. generated straight line motions
E. all of the above