CCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdf
Angular Acceleration of Connecting Rod (Analytical Method)
1. Unit-III
Dynamic Force Analysis
Dr. Ambuj Saxena
Associate Professor
Department of Mechanical Engineering
G. L. Bajaj Institute of Technology and Management
Plot No. 2, Knowledge Park III,
Greater Noida, Distt. G.B.Nagar (U.P.) India -201306
Theory of Machines
(RME-602)
2. l = Length of connecting rod between the centers,
r = Radius of crank or crank pin circle,
∅ = Inclination of connecting rod to the line of stroke PO, and
n = Ratio of length of connecting rod to the radius of crank = l/r.
Approximate Analytical Method for angular
acceleration of the Connecting Rod
3. l = Length of connecting rod between the centers,
r = Radius of crank or crank pin circle,
∅ = Inclination of connecting rod to the line of stroke PO, and
n = Ratio of length of connecting rod to the radius of crank = l/r.
Approximate Analytical Method for angular
acceleration of the Connecting Rod
4. l = Length of connecting rod between the centers,
r = Radius of crank or crank pin circle,
∅ = Inclination of connecting rod to the line of stroke PO, and
n = Ratio of length of connecting rod to the radius of crank = l/r.
Approximate Analytical Method for angular
acceleration of the Connecting Rod
5. l = Length of connecting rod between the centers,
r = Radius of crank or crank pin circle,
∅ = Inclination of connecting rod to the line of stroke PO, and
n = Ratio of length of connecting rod to the radius of crank = l/r.
Approximate Analytical Method for angular
acceleration of the Connecting Rod