Test: CAM & Balancing of Rigid Rotors & Field Balancing - 1 - Mechanical Engineering MCQ
15 Questions MCQ Test - Test: CAM & Balancing of Rigid Rotors & Field Balancing - 1
In a plate cam mechanism with reciprocating roller follower, the follower has a constant acceleration in the case of
[GATE-1993]
A rotating disc of 1 m diameter has two eccentric masses of 0.5 kg each at radii of 50 mm and 60 mm at angular positions of 0°and 150°, respectively. a balancing mass of 0.1 kg is to be used to balance the rotor. What is the radial position of the balancing mass?
[GATE-2005]
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In a cam-follower mechanism, the follower needs to rise through 20 mm during 60o of cam rotation, the first 30o with a constant acceleration and then with a deceleration of the same magnitude. The initial and final speeds of the follower are zero. The cam rotates at a uniform speed of 300 rpm. The maximum speed of the follower is
[GATE-2005]
What is the condition for dynamic balancing of a shaft-rotor system?
[IES 2007]
For a spring-loaded roller-follower driven with a disc cam,
A system in dynamic balance implies that
In a cam design, the rise motion is given by a simple harmonic motion (SHM)
where h is total rise, θ is camshaft angle, β is the total angle of the rise interval. The jerk is given by
A rigid body shown in the Fig. (a) has a mass of 10 kg. It rotates with a uniform angular velocity 'ω'. A balancing mass of 20 kg is attached as shown in Fig. (b). The percentage increase in mass moment of inertia as a result of this addition is
The profile of a cam in a particular zone is given by x
normal to the cam profile at 
is at an angle (with respect to x axis)
Assertion (A): A dynamically balanced system of multiple rotors on a shaft can rotate smoothly at the critical speeds of the system.
Reason (R): Dynamic balancing eliminates all the unbalanced forces and couples from the system.
In a circular arc cam with roller follower, the acceleration in any position of the lift would depend only upon
Consider the following statements for completely balancing a single rotating mass:
1. Another rotating mass placed diametrically opposite in the same plane balances the unbalanced mass.
2. Another rotating mass placed diametrically opposite in a parallel plane balances the unbalanced mass.
3. Two masses placed in two different parallel planes balance the unbalanced mass.
Which of the above statements is/are correct?
Consider the following statements:
Cam followers are generally classified according to
1. the nature of its motion
2. the nature of its surface in contact with the cam
3. the speed of the cam Which of the statements given above are correct?
A system of masses rotating in different parallel planes is in dynamic balance if the resultant.
In a single spindle automatic lathe two tools are mounted on the turret, one form tool on the front slide and the other, a parting tool on the rear slide. The parting tool operation is much longer than form tool operation and they operate simultaneously (overlap). The number of cams required for this job is
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