If we know the speed and the time taken for a body to cover a distance, then we can find the distance covered by it as follows:
distance=speed*time
usually in micrometers, picometers or nanometers.
one millimeter is 1000 micrometers
one micrometer is 1000 picometers and
one picometer is 1000 nanometers
a ruler
feet, meters, light years
multiply speed by time.
speed*time
Speed. The equation to find speed is distance over time.
Relative or apparent motion.
It will take less time.
That's the object's speed.
In zero gravity, the mass of an object does not effect the distance an object travels at all unless there is a constent force acting upon it. However, if it is in contact with another object, and gravity is what keeps the 2 or more objects touching each other, then mass will effect the distance it travels because of friction.
Speed. The equation to find speed is distance over time.
The distance it travels in a caertain amount of time as well as the direction
Relative or apparent motion.
It will take less time.
In general, we will find the average speed of a moving object by dividing the total distance it travels by the total time elapsed in its travel.We can find the actual speed of the object if it moves with a constant speed during all of its travel. But if the object is something like a bus or train that makes stops along the way, we discover its average speed by dividing the total distance it travels by the total time it took to travel that distance.
Displacement is the term for the change in position of an object. You find displacement by taking the final position of the object and subtract the initial position of the object.
The velocity of the object.
That's the object's speed.
Light travels an infinite distance until it is absorbed by an object.
True . A+
true
In zero gravity, the mass of an object does not effect the distance an object travels at all unless there is a constent force acting upon it. However, if it is in contact with another object, and gravity is what keeps the 2 or more objects touching each other, then mass will effect the distance it travels because of friction.