Important Questions [6]
- The System in Figure is Initially at Rest. Neglecting Friction Determine the Force P Required If the Velocity of the Collar is 5 M/S After 2 Sec and Corresponding Tension in the Cable.
- A Force of 500 N is Acting on a Block of 50 Kg Mass Resting on a Horizontal Surface as Shown in the Figure. Determine the Velocity After the Block Has Travelled a Distance of 10m.
- A Homogeneous Cylinder 3 M Diameter and Weighing 400 N is Resting on Two Rough Inclined Surface’S Shown.If the Angle of Friction is 15o.Find Couple C Applied to the Cylinder that Will Start It
- Find the Weight Wb So as to Have Its Impending Motion Down the Plane. Take Weight of Block a as 2kn. the Pin Connected Rod Ab is Initially is in Horizontal Position. Refer Figure 13. Coefficient
- A 30 Kg Block is Released from Rest.If It Slides Down from a Rough Incline Which is Having Co-efficient of Friction 0.25.Determine the Maximum Compression of the Spring.Take K=1000 N/M.
- Find the Force ‘F’ to Have Motion of Block a Impeding up the Plane. Take Coefficient of Friction for All the Surfaces in Contact as 0.2. Consider the Wedge B as Weightless. Refer Figure 11.
