A mountain biker riding a trail which follows the line of greatest slope, or fall line.
In mountain biking the line of greatest slope defines the fall line, which is the path a trail will follow to descend a hill or mountain with the shortest path, and will also cause the rider to gain the most velocity (assuming brakes are not used, and other factors such as rolling resistance are equal).
The line of greatest slope defines the path (red) a climber will take to gain the most elevation with the shortest possible path.
In mountain climbing, the line of greatest slope defines the fall line, which is the path a climber will take to gain the most elevation with the shortest possible path.
The line of greatest slope has practical significance in map reading. On the terrain it is often far more discernible, even intuitively obvious, rather than accurately picking out the consistent height level on what is likely the undulating uneven ground along the ground represented on the contour line. But knowing that a greatest slope vector is orthogonal to the contour line, one can readily deduce the direction of the contour lines from the line of greatest slope. The extent and overall direction of the contour line to a map scale can only be found on the topographic map.
By noting the corresponding compass vector, walking along the contour one can line up a hand held compass aligning the expected direction, and eye-balling the line of contour’s estimated level, move up or down along the bearing faster— to closely locate a desired point (planned point) along the hillside.[clarification needed] Pragmatically, this can be ‘good enough’ for rough project landscaping, such as timber clear cutting the work site of a structure like a bridge abutment or connecting ramps. The approximation can then be refined by transit and other surveyor tools to construct on target.