The mass of the object.
If an object is not accelerating, then one knows for sure that it is moving at a constant speed.
Objects in deep space experience weightlessness due to the absence of gravity. Weight is a measure of the force of gravity acting on an object, and this force diminishes the further away from a massive body an object is. In deep space, objects are freefalling, experiencing only the slight gravitational pulls of distant celestial bodies.
speed of the object. Speed is calculated by dividing the distance traveled by the time it took to travel that distance.
If one knows the POSITION and SPEED of an object at a given time, one can then predict the position of that object relative to the original POSITION at any time afterwards. Also useful to know would be the DIRECTION in which it was moving - which would enable a more accurate prediction of it's subsequent position; and any rate of ACCELERATION (or its negative, deceleration), i.e. the rate of change of speed, as this would also affect the object's subsequent position.
To identify and objects location you need three pieces of information. These are a reference point, a distance from the reference point, and a direction from the reference point.
There is not enough information to answer the question. The answer depends onis the object travelling at constant velocity?is the acceleration constant?If it is an object travelling with constant acceleration, which three of the following four variables are knows: initaial velocity, final velocity, acceleration and time.
An object is a component of a program that knows how to perform certain actions and to interact with other pieces of the program.
Mathematically, the area underneath the graph of a curve is the value you get by integrating that curve. From classical mechanics, one knows that the integral of an object's velocity with respect to time gives you that object's position as a function of time. Thus, the area underneath the velocity time graph from one point in time to another is the change in position of that object between those two times or, it's distance traveled.
If you divide he distance by the time, and take into account the direction traveled, you will get the AVERAGE velocity during the time considered.
You need to agree on a point that everybody knows, and then provide a minimum of three numbers to describe the object's location compared to the known point.
If an object is not accelerating, then one knows for sure that it is moving at a constant speed.
by our standards; 1 year (the logical answer).... by the objects standards; ask a mathematician who knows the formula
Fauna
ANSWER 1 - If an unbalanced force acts on an object in motion, then the velocity of the object will change. ANSWER 2 - The object will continue its state of motion. This property is called 'inertia'.
Objects in deep space experience weightlessness due to the absence of gravity. Weight is a measure of the force of gravity acting on an object, and this force diminishes the further away from a massive body an object is. In deep space, objects are freefalling, experiencing only the slight gravitational pulls of distant celestial bodies.
Are you serious? Everyone knows that people can't morph into objects.
It queries an object for specified information, if the object knows about that information the object returns the information if not the object returns an error.