its 4 meters
its 4 meters
The total displacement of the ball is the difference between the uphill distance (5 meters) and the downhill distance (9 meters), as displacement considers the final position relative to the initial position. Therefore, the displacement of the ball is 9 meters (downhill distance) - 5 meters (uphill distance) = 4 meters.
It is converted to the ball's velocity or it is known as its velocity because displacement changes with time is known as velocity.
The displacement of a ball is a vector quantity that refers to the change in position of the ball in a straight line from its initial position to its final position. It is calculated by subtracting the initial position vector from the final position vector. Displacement can be positive, negative, or zero depending on the direction of the movement of the ball.
It is converted to the ball's velocity or it is known as its velocity because displacement changes with time is known as velocity.
That means, how far has it moved.
its 4 meters
The total displacement of the ball is the difference between the uphill distance (5 meters) and the downhill distance (9 meters), as displacement considers the final position relative to the initial position. Therefore, the displacement of the ball is 9 meters (downhill distance) - 5 meters (uphill distance) = 4 meters.
Of course it is the displacement.
It is converted to the ball's velocity or it is known as its velocity because displacement changes with time is known as velocity.
the amplitude. It is the displacement at a peak.
Float the ball in water and calculate the displacement.
The displacement of a ball is a vector quantity that refers to the change in position of the ball in a straight line from its initial position to its final position. It is calculated by subtracting the initial position vector from the final position vector. Displacement can be positive, negative, or zero depending on the direction of the movement of the ball.
It is converted to the ball's velocity or it is known as its velocity because displacement changes with time is known as velocity.
The force-displacement graph for the strings of a new type of graphite-head tennis racquet is shown in diagram (a). The racquet is tested in a laboratory by being secured vertically and then having a special type of non-deforming tennis ball fired at it horizontally, as shown in diagram (b). The initial velocity of the ball as it strikes the racquet is 10 m s-1 east. After striking the racquet, the ball has a velocity of 9.5 m s-1 west. The mass of the ball is 100 g. What is the maximum displacement of the strings of the racquet during this interaction?
the amplitude. It is the displacement at a peak.
The amount of displacement in a longitudinal wave is measured by the amplitude of the wave. The amplitude represents the maximum displacement from the equilibrium position of the particles in the medium as the wave passes through.