Keeping the mass moment of inertia of left end and the right end shafts in a three-rotor system same, if the length of one shaft is doubled what should be the effect on the length of another shaft?

For a vibration system having different shaft parameters, calculate which of the following cannot be the diameter of the equivalent shaft if the diameters of shafts in m are: 0.05, 0.06, 0.07.

A disc is having a mass of 500 kg at a radius of gyration of 450 mm. What will be the value of the mass moment of inertia of the shaft?

A steel shaft 1.5 m long is 95 mm in diameter for the first 0.6 m of its length, 60 mm in diameter for the next 0.5 m of the length, and 50 mm in diameter for the remaining 0.4 m of its length. What will be the length of the equivalent shaft?

For the free torsional vibration of a geared system which of the following statement is true?

When inertia of gearing is taken into consideration, then which of the following should be taken into account?

For a gearing system, the equivalent system is made consisting of two rotors. How many nodes will this new equivalent system have?

For a gearing system, the equivalent system is made consisting of three rotors. How many nodes will this new equivalent system have?