Since the subjects overlap, the Solutions for Machine Design by Engr. Younis Fakher covers related chapters (4-6) on stresses and machine members.
| Chapter No. | Topic | Key Types of Problems to Look For | | :--- | :--- | :--- | | | Kinematics of Motion | Velocity triangles, projectile motion, graphical differentiation. | | 3 | Kinetics of Motion | D’Alembert’s principle, inertia forces, vehicle dynamics on slopes. | | 4 | Simple Mechanisms | Grashof’s law calculations, finding degrees of freedom (Grubler’s criterion). | | 5 | Velocity in Mechanisms | Instantaneous Centre method and Relative Velocity method (Essential for exams). | | 6 | Acceleration in Mechanisms | Klein’s construction for slider-crank mechanisms (High priority). | | 7 | Belts, Ropes, and Chains | Length calculations, power transmission ratio, centrifugal tension. | | 8 | Friction | Screw jack efficiency, bearing friction, pivot and collar friction. | | 10 | Governors | Watt, Porter, and Hartnell governor calculations (Height, effort, power). | | 12 | Balancing | Balancing of rotating masses (Graphical solutions are common here). | | 14 | Gyroscopic Couple | Ship stabilization, aircraft turning, grinding stones. | | 15 | Toothed Gearing | Gear ratio problems, interference, contact ratio. | | 16 | Gear Trains | Epicyclic gear trains (Tabular method vs. Formula method). | | 18 | Vibrations | Natural frequency, damped vibration, transmissibility. | theory of machines by rs khurmi exercise solutions
would show:
Balancing