5.0 meters every second.
an object uniformly accerlerates over a distance of 100 m in 20 seconds. calculate the acceleration.
Speed = (distance covered) divided by (time to cover the distance) Speed = (magnitude of acceleration) multiplied by (time the acceleration has acted)
For uniform motion, distance = velocity*time where uniform implies that the velocity is a constant. Therefore distance = v*time and so, if time increases by t, the distance increases by vt.
The slope increases.
There is no information that shows any relationship with time. Since acceleration is a variable related to time, it is impossible to answer the question.
an object uniformly accerlerates over a distance of 100 m in 20 seconds. calculate the acceleration.
Speed = (distance covered) divided by (time to cover the distance) Speed = (magnitude of acceleration) multiplied by (time the acceleration has acted)
For uniform motion, distance = velocity*time where uniform implies that the velocity is a constant. Therefore distance = v*time and so, if time increases by t, the distance increases by vt.
It means that the object was accelerating or decelerating at least part of the time.
The slope increases.
From a kinematic perspective, just observing the motion of an object, we can say that an object is experiencing uniform acceleration if the magnitude of the object's velocity changes at a constant rate but maintains the same direction. From a dynamic perspective, as a consequence of Newton's second law, we know that whenever the net force on an object is constant (in magnitude and direction) the object will undergo uniform acceleration.
0.712 m/s^2
There is no information that shows any relationship with time. Since acceleration is a variable related to time, it is impossible to answer the question.
Object's mass and acceleration remain constant.Object's speed increases linearly.Object's distance fallen increases exponentially.
The magnitude of acceleration due to gravity depends on the mass of the object toward which you're attracted by gravity, and on your distance from it. There are trillions of different possibilities in space.
scalar quantities have magnitude only while vector quantities have both magnitude and direction. e.g.s of scalar quantities- distance, mass, temperature, speed e.g.s of vector quantities-displacement, velocity, acceleration, weight, force
The magnitude of acceleration due to gravity depends on the mass of the object toward which you're attracted by gravity, and on your distance from it. It ought to be pretty clear that in space, there are several different possibilities.