The speed of an object depends on many things, such as the force that accelerated it, the forces now acting on it, and the object's current speed and mass themselves.
The mass and speed of the object
The mass and speed of the object
The difference between an object's speed and an object's velocity is that the object's speed is how fast it is going, and the object's velocity is how many units of speed the object has traveled.
When two objects are moving with respect to each other at different speeds, and that difference is a good fraction of the speed of light, then the rate of time passing on one object would seem to an observer on the other object to be different.
The centripetal acceleration is equal to velocity squared over radius. a=v^2/r
The mass and speed of the object
The mass and speed of the object
The mass and speed of the object
The amount of kinetic energy an object has depends on its mass and speed.
The kinetic energy depends on the object's mass, and on its speed.
Different objects can have different speeds; also, the same object can have one speed now, and a different speed later.
That would depend on what you consider "large".The size of an object's momentum = (its mass) x (its speed).So, more mass and more speed result in more momentum.
That's going to depend on the object's mass, temperature, and speed. Come back when you have those numbers and we'll help you work it out.
An object's potential energy doesn't depend on its speed. You can do anything you like with the object's speed, and it has no effect on potential energy.
The answer will depend on the speed at which the truck travels.The answer will depend on the speed at which the truck travels.The answer will depend on the speed at which the truck travels.The answer will depend on the speed at which the truck travels.
The difference between an object's speed and an object's velocity is that the object's speed is how fast it is going, and the object's velocity is how many units of speed the object has traveled.
That will depend not only on the escape velocity, but also - very importantly - on the object's speed.