This cannot be answered. In order for this to be answered you will have to give me the value to the letter X.
Let s denote distance v denote speed t denote time. s = integral(v)dt If speed is constant, s = vt.
Average speed = Distance covered/Time taken
Distance covered - 2199m Displacement - 200m Distance covered - 2199m Displacement - 200m
At 10 miles per hour, a distance of 10.67 feet is covered every second.
That's "speed".
None.Speed is the distance covered per unit of time. If no distance is covered then the speed is 0.None.Speed is the distance covered per unit of time. If no distance is covered then the speed is 0.None.Speed is the distance covered per unit of time. If no distance is covered then the speed is 0.None.Speed is the distance covered per unit of time. If no distance is covered then the speed is 0.
It indicates constant speed. Velocity may or may not be constant, because we don't know anything about changes in direction that may occur.
The incorrect answer (but expected) answer is probably "time taken for the journey". Unfortunately, that is true ONLY if the distance is covered at constant speed and there is no valid reason for assuming that!
33,055m or 33.055Km
Distance covered in nth second means the distance covered in that particular second . It cannot be more than the distance covered in n seconds which means the distance covered in a total time of n seconds.
Let s denote distance v denote speed t denote time. s = integral(v)dt If speed is constant, s = vt.
A single constant speed that would have taken you the same distance that you covered during a period of time when your speed actually changed.
yes,displacement is the shortest distance covered by a body,so distance covered by a body may be greater than the displacement.
yes,displacement is the shortest distance covered by a body,so distance covered by a body may be greater than the displacement.
the person is walking at a constant velocity
Constant speed is movement at a fixed (constant) distance per unit of time. The same amount of distance is covered by the object in the same amount of time at each measurement of that same interval. An example of an object moving at a constant speed might be an object in orbit. Something up their above the drag of the atmosphere will move at a constant speed, and will continuously move around the earth at the same speed. Note that velocity is speed with a direction vector. An object in orbit will have a constant speed, but its velocity will be constantly changing because it is constantly changing the direction it is moving.
Constant speed is movement at a fixed (constant) distance per unit of time. The same amount of distance is covered by the object in the same amount of time at each measurement of that same interval. An example of an object moving at a constant speed might be an object in orbit. Something up their above the drag of the atmosphere will move at a constant speed, and will continuously move around the earth at the same speed. Note that velocity is speed with a direction vector. An object in orbit will have a constant speed, but its velocity will be constantly changing because it is constantly changing the direction it is moving.