B. A round-trip ride to school and back
If an object moves in a closed loop, returning to its initial position, its total displacement will be zero. For example, if you walk around a circular track and end up back at your starting point, your total displacement is zero.
If an object moves from one point to another and then returns back to its original point, the total displacement would be zero as it would end up at the same position it started from. This can happen when there is no change in the object's position relative to its starting point after a series of movements.
If an object moves from one point to another and then returns to its original position, it will have a total displacement of zero. This is because displacement is a vector quantity that represents the change in position of an object from its starting point to its end point. When the object returns to its starting point, the displacements cancel each other out, resulting in a total displacement of zero.
The total displacement of the dog from the starting point can be calculated by finding the net displacement, which is the difference between the distances moved in each direction. In this case, the net displacement would be 6m north - 4m south, resulting in a total displacement of 2m north.
I have traveled 100 kilometers in total.
A round-trip ride to school and back
If an object moves in a closed loop, returning to its initial position, its total displacement will be zero. For example, if you walk around a circular track and end up back at your starting point, your total displacement is zero.
If an object moves from one point to another and then returns back to its original point, the total displacement would be zero as it would end up at the same position it started from. This can happen when there is no change in the object's position relative to its starting point after a series of movements.
If an object moves from one point to another and then returns to its original position, it will have a total displacement of zero. This is because displacement is a vector quantity that represents the change in position of an object from its starting point to its end point. When the object returns to its starting point, the displacements cancel each other out, resulting in a total displacement of zero.
The total displacement of the dog from the starting point can be calculated by finding the net displacement, which is the difference between the distances moved in each direction. In this case, the net displacement would be 6m north - 4m south, resulting in a total displacement of 2m north.
I have traveled 100 kilometers in total.
No, your total displacement (the straight line distance from start to finish, regardless of path taken) cannot be greater than your total distance (the sum of all the length of the path taken). Displacement can be shorter or equal to distance, but not greater.
The average velocity would be the total displacement over the total time interval. To calculate this, divide the total displacement by the total time to get the average velocity.
The total displacement is 8 km.
The total displacement in one oscillation is the maximum distance the object moves away from its equilibrium position in either direction before returning back to the equilibrium position. This total displacement is equal to twice the amplitude of the oscillation.
formula for displacement: A=(pi)r^2 A is Area Pi is 3.14 and R is the radius of the cylinder, this is the piston in Square inches. then multiply that by the distance the piston travels, that is the displacement of one cylinder to find total engine displacement multiply that by how many pistons are in the engine to get total engine displacement
To determine total displacement, you would need to calculate the vector sum of all individual displacement vectors. This can be achieved by adding together all the individual displacements in both the x and y directions. The total displacement will give the net change in position from the starting point to the final point.