First, it depends on your inertial reference frame. If I'm riding in a car holding a book in front of me, in my reference frame the book is stationary, but in the reference frame of a pedestrian the book is moving at the same velocity as the car.
That having been said, an object has moved if its position has changed with respect to time. If we look at an object at two different times, t(1) and t(2), and the object was in two different places, p(1) and p(2), then the object moved at an average speed of [p(2) - p(1)] ÷ [t(2) - t(1)].
When you know both the speed and direction of an object's motion, you know its velocity. Velocity describes both how fast an object is moving (speed) and in what direction it is moving.
When you know both speed and direction of an object in motion, you know the velocity of the object. Velocity is a vector quantity that describes how fast an object is moving and in what direction.
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No, the mass of a moving object is not necessary to calculate the amount of work done on it. Work is calculated as the force applied to an object multiplied by the distance the object moves in the direction of the force.
When stating the velocity of an object, you need to know both the speed (how fast the object is moving) and the direction in which it is moving. Velocity is a vector quantity that combines magnitude (speed) and direction, so both pieces of information are necessary to describe it accurately.
The object would be moving.
The object does not appear to be staying in one place. Or, it is moving if it's distance from another object is changing.
When you know both the speed and direction of an object's motion, you know its velocity. Velocity describes both how fast an object is moving (speed) and in what direction it is moving.
If you know the speed and direction of the object's motion, then you know its velocity.
velocity
Then we will know the object's velocity.
we can say an object is moving if it changes it constant environmnent or background
When you know both speed and direction of an object in motion, you know the velocity of the object. Velocity is a vector quantity that describes how fast an object is moving and in what direction.
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Whe you stop thinking about it and just know that it is what it is.
No, the mass of a moving object is not necessary to calculate the amount of work done on it. Work is calculated as the force applied to an object multiplied by the distance the object moves in the direction of the force.
It is easier to push a moving object than an object of the same mass because the weight on the moving object is less and out more.... I know this doesn't quite make sense but email me at oliviabastianich@Gmail.com for a better explenation... i will help in the next 12 hours!