If a ball is displaced from O to A along a straight line with a distance of 5.0m,what is the resultant displacement and the total distance by the ball?

Disp. = 0.

d = 5 + 5 = 10 m.

To find the resultant displacement and the total distance traveled by the ball, we need to understand the definitions of these terms.

Resultant Displacement: It is the straight line distance from the initial point (O) to the final point (A) in a specific direction.

Total Distance: It is the actual distance traveled by an object, including any back and forth motion.

In this case, since the ball is displaced from O to A in a straight line, the resultant displacement and the total distance will be the same.

Given:
Distance from O to A = 5.0 m

Therefore:

Resultant Displacement = Total Distance = 5.0 m

To find the resultant displacement and total distance, we need to determine the type of motion involved. In this case, the ball is displaced along a straight line from O to A, indicating a one-dimensional motion.

Resultant Displacement:
The resultant displacement is the shortest distance between the starting point (O) and the final position (A). Since the ball moves in a straight line, the resultant displacement is simply the distance between O and A, which is 5.0m. Therefore, the resultant displacement is 5.0m.

Total Distance:
The total distance traveled by the ball is the actual path length covered from the starting point to the final position, irrespective of direction. In this scenario, the ball only moved from O to A, with no back-and-forth motion. So, the total distance traveled is the same as the displacement, which is 5.0m.

In summary, the resultant displacement is 5.0m, and the total distance traveled by the ball is also 5.0m.