Final answer:
Jamison's total displacement after spinning around 5 times is 0 meters because displacement measures the change in position, and spinning does not change his starting position.
Step-by-step explanation:
If Jamison spins around 5 times without moving in any direction, his total displacement would be 0 meters. Displacement is a vector quantity that refers to an object's overall change in position. Since spinning in place does not change Jamison's position from where he started, his displacement is zero, irrespective of the number of times he spins.
Displacement differs from distance in that distance measures the total pathway covered during the movement, whereas displacement measures the direct length between the starting and ending points along with the direction. In this case, the total distance Jamison covered while spinning could be calculated based on the circumference he moved along during each spin; however, since displacement focuses on position change, the spinning does not contribute to it at all.
Another way to understand this concept is by analogy. If you were to roll a ball in a straight line and it ends up back at its starting point, the displacement of the ball would also be zero, much like Jamison's displacement after spinning in place.