Calculate the vertical height of a Watt governor when it rotates at 60 – McqOptions

MCQOPTIONS

1.	Calculate the vertical height of a Watt governor when it rotates at 60 r.p.m.
A.	0.248 m
B.	0.248 m
C.	0.448 m
D.	0.548 m
Answer» B. 0.248 m

Discussion

No Comment Found

Related MCQs

A governor is said to be isochronous when the equilibrium speed is
In a governor, if the equilibrium speed is constant for all radii of rotation of balls, the governor is said to be
The power of a governor is the work done at
A spring controlled governor is said to be unstable, if the relation between the controlling force (Fc) and radius of rotation(r) is Fc = ar
If the controlling force line for a spring controlled governor when produced intersects the Y-axis at the origin, then the governor is said to be unstable.
A_GOVERNOR_IS_SAID_TO_BE_ISOCHRONOUS_WHEN_THE_EQUILIBRIUM_SPEED_IS?$
IN_A_GOVERNOR,_IF_THE_EQUILIBRIUM_SPEED_IS_CONSTANT_FOR_ALL_RADII_OF_ROTATION_OF_BALLS,_THE_GOVERNOR_IS_SAID_TO_BE?$
The power of a governor is the work done a?
Calculate the vertical height of a Watt governor when it rotates at 60 r.p.m.
A Hartnell governor has its controlling force (Fc) given by Fc = ar + b, where r is the radius of rotation and a and b are constants. The governor becomes isochronous when