The answer is 80 because 100-30+10 is 80.
The magnitude of the balls displacement is 9 meters.
Displacement is measured in distance, so any measurement dealing with only distance will work. The SI units are meters.
If you come back to the starting point your displacement is zero
Displacement can be measured in any unit that measures distance but the SI unit is meters. When talking about the displacement of a ship, it refers to the mass of water that the ship displaces. This is actually equal to the weight of the ship and is usually expressed in metric tons.
80
meters.
It is a displacement vector.
The magnitude of the balls displacement is 9 meters.
Vector quantities are quantities that have directionality as well as magnitude. Displacement (meters North) vs Distance (meters) Velocity (meters per second North) vs Speed (meters per second)
The total distance traveled (corresponding to the amount of gas the car would burn on such a trip) is 26 meters.The magnitude of the displacement vector = (Dfinal - Dinitial) = 4 meters north.
30 meters south
8 meters
The magnitude of C cannot be >20.
Displacement is the shortest distance travelled . formula of Displacement= speed * time in meters
Speed is the term that defines the rate of which something (car , flight , running man , .... ) is displaced per a second. no of meters crossed per a second that is for linear speed , another type of speed is the rotational speed which measures the no of radian angles per second crossed by rotating part ... speed is a scalar measurement. velocity defines the rate of displacement (meters or angles) beside direction in which displacement is taken (vectorial measurement --> magnitude and direction).
Speed is the term that defines the rate of which something (car , flight , running man , .... ) is displaced per a second. no of meters crossed per a second that is for linear speed , another type of speed is the rotational speed which measures the no of radian angles per second crossed by rotating part ... speed is a scalar measurement. velocity defines the rate of displacement (meters or angles) beside direction in which displacement is taken (vectorial measurement --> magnitude and direction).