They are inversely proportional, given that displacement is constant, as the equation shows :
v = D/t
This is logical. The faster an object moves, the less time it will take to travel a specific distance.
Velocity is speed and its direction.
-- "30 miles per hour" is a speed
-- "30 miles per hour north" is a velocity
-- "30 miles per hour north" and "30 miles per hour east" are the same speed,
but different velocities.
Velocity is equal to the distance traveled, divided by the amount of time to travel such distance. In other words, 50 miles per hour may represent a distance of 50 miles traveled in on hour, or 50 miles being the distance and 1 hour being the time, denoting a velocity of 50 miles per hour (50mph.)
Velocity = Displacement/Time
v = d/t
velocity= distance/time
velocity = displacement / time taken
Regarding their magnitudes . . . Acceleration is the time rate of change of velocity. Regarding their directions . . . There's not necessarily any relationship between the two.
The relationship between the period of time and the velocity in circular motion is inverse. As the period of time increases, the velocity decreases, and vice versa. This is because velocity is defined as the distance traveled per unit of time, so if the same distance is covered in a longer period of time, the velocity will be lower.
Acceleration is the rate of change of the magnitude of velocity and the direction in which the velocity changes.
Momentum=mass*velocity
velocity = displacement / time taken
Regarding their magnitudes . . . Acceleration is the time rate of change of velocity. Regarding their directions . . . There's not necessarily any relationship between the two.
The relationship between the period of time and the velocity in circular motion is inverse. As the period of time increases, the velocity decreases, and vice versa. This is because velocity is defined as the distance traveled per unit of time, so if the same distance is covered in a longer period of time, the velocity will be lower.
v = ds/dt where: v = velocity s = position t = time In other words, velocity is the rate of change of position. For the simplified case of constant velocity: v = (difference of position) / (time elapsed)
The average velocity over an time interval is the average of the instantaneous velocities for all instants over that period. Conversely, as the time interval is reduced, the average velocity comes closer and closer to the instantaneous velocity.
sorry '=
Acceleration is the time rate of change of velocity.
Acceleration is the rate of change of the magnitude of velocity and the direction in which the velocity changes.
Acceleration is the rate at which velocity changes and the direction of the change.
Momentum=mass*velocity
there is no true relationship between distance from the sun and orbit time as some planets go revolves at a different velocity.
The lighter the weight, the greater the initial velocity of shortening; inverse relationship.