What is defined as the load weight multiplied by the horizontal distance from the load's center of gravity to the tipping axis?

The concept being described in the question pertains to the relationship between load weight and its effect on a crane's stability. When the load weight is multiplied by the horizontal distance from the load's center of gravity to the tipping axis, it provides a measure of leverage that can affect how stable the crane remains when lifting or moving loads. This relationship is critical for ensuring that equipment is used safely and effectively, as excessive leverage can lead to tipping or loss of control.

Load leverage considers both the weight of the load and its position relative to the crane's base, highlighting how the distribution of weight can influence the crane's ability to maintain balance when lifting. If the leverage becomes too great, it raises the risk of a tipping failure, necessitating careful calculation and consideration during crane operation.

On the other hand, the other options each relate to aspects of load handling and crane operation but do not specifically refer to the combination of load weight and its horizontal distance from the tipping axis. Load capacity refers to the maximum weight a crane can safely lift, crane balance involves the overall stability of the crane regardless of individual load dynamics, and working load limit defines the maximum allowable weight to be lifted including a safety factor. Each of these plays a role in crane operation, but load leverage