Q8:-The following particulars relate to a symmetrical circular flank cam operating a flat- faced follower in 4-stroke engine:- base circle radius=25 mm, nose circle radius=8 mm, lift of the valve=10 mm, total angle of action of the cam=120° and the engine speed=1000 rpm. Determine: - (a) the flank radius, (b) maximum velocity and (c) maximum acceleration and retardation of the follower. If the mss of the follower and valve with which it is in contact is 4 kg, find the minimum force to be exerted by the spring to overcome the inertia of the valve parts.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Q8:-The following particulars relate to a symmetrical circular flank cam operating a flat- faced follower in 4-stroke engine:- base circle radius=25 mm, nose circle radius=8 mm, lift of the valve=10 mm, total angle of action of the cam=120° and the engine speed=1000 rpm. Determine: - (a) the flank radius, (b) maximum velocity and (c) maximum acceleration and retardation of the follower. If the mss of the follower and valve with which it is in contact is 4 kg, find the minimum force to be exerted by the spring to overcome the inertia of the valve parts.
Q8:-The following particulars relate to a symmetrical circular flank
cam operating a flat- faced follower in 4-stroke engine:- base
circle radius=25 mm, nose circle radius=8 mm, lift of the valve=10
mm, total angle of action of the cam=120° and the engine
speed-1000 rpm. Determine: - (a) the flank radius, (b) maximum
velocity and (c) maximum acceleration and retardation of the
follower. If the mss of the follower and valve with which it is in
contact is 4 kg, find the minimum force to be exerted by the spring
to overcome the inertia of the valve parts.
Transcribed Image Text:Q8:-The following particulars relate to a symmetrical circular flank cam operating a flat- faced follower in 4-stroke engine:- base circle radius=25 mm, nose circle radius=8 mm, lift of the valve=10 mm, total angle of action of the cam=120° and the engine speed-1000 rpm. Determine: - (a) the flank radius, (b) maximum velocity and (c) maximum acceleration and retardation of the follower. If the mss of the follower and valve with which it is in contact is 4 kg, find the minimum force to be exerted by the spring to overcome the inertia of the valve parts.
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