The slope of the line on a position-time graph is the velocity. So this question involves calculating slope. To do so, you will need to determine the "x, y" coordinates of two points on the line. Pick points for which you are certain of what the coordinates are. The first point (at t = 0 s) and the last point on the graph would be great choices. Once you've selected the two points and determined their coordinates, calculate the ratio of the y-coordinate difference divided by the x-coordinate difference. That is, determine the ratio of ∆position to ∆time.
Avoid falling prey to the common error of failing to compute a ratio of two changes. Too many students are prone to simply finding the coordinates of a single point and calculating the ratio of the y-coordinate to the x-coordinate. This will only work if the line on the graph passes through the point (0 s, 0 m). The line on this graph does not do that. The process of determining this slope always involves finding the change in the vertical coordinate divided by the change in the horizontal coordinate for any two points located on the line. You MUST use two points.
Sometimes the above procedure is called the rise per run method. That is what slope means - by how much does the line rise upward for every 1 unit of run across the horizontal axis. If you determine a slope of the line to be 4 m/s, then you have determined that for every 1 second of motion, the object changes its position by 4 meters.