You have an assumed sling angle of 24 degrees but the actual angle is 19 degrees. What effect does this have on the pounds per leg on the sling?

When using a sling to lift loads, the angle of the sling plays a crucial role in determining the load distribution on the sling legs. The assumed angle of 24 degrees is typically used to calculate safe working loads and load distribution. However, when the actual angle is reduced to 19 degrees, the dynamics change significantly.

As the angle decreases, the load per leg of the sling increases. This is because a lower angle results in a greater vertical component of the force acting on the sling, which means each leg of the sling takes on more weight from the load. The geometry involved in the lifting process indicates that as the angle decreases, the tension in the slings must increase to support the same overall load.

Therefore, when the actual sling angle is lower than what was assumed, the pounds per leg will increase, making the lifted load more demanding on the sling's strength and safety limits. This shift highlights the importance of regularly checking sling angles during lifting operations to ensure they remain within safe parameters for effective load management.