A moving walkway is something that is used to help people move more quickly between points. They generally move at a speed of 2.5 feet per second, which makes them easy to get on and off of.
Speed X journey time. (Time actually moving).
adsl
The same as the speed of light
1 km per second is defined as equal to 1000 meters per second. Therefore, a speed of 15 meters per second is 15/1000 km per second or 0.015 km per second.
8.8 feet per second.
Moving walkways are sometimes used in airports to help people get from one point to another more quickly. They usually more at a speed of around 2.5 feet per second.
THE GARE MONTPARNASSE TRAIN STATION IN PARIS HAS A HIGH SPEED VERSION OF A MOVING WALKWAY. IF HE WALKS WHILE RIDING THIS MOVING WALKWAY, JEAN CLAUDE CAN TRAVEL 200 METERS IN 30 SECONDS LESS TIME THAN IF HE STANDS STILL ON THE MOVING WALKWAY. IF JEAN CLAUDE WALKS AT A NORMAL RATE OF 1.5 METERS PER SECOND, WHAT IS THE SPEED OF THE GARE MONTPARNASSE WALKWAY?
4.05 ft/sec
Before you step off of the train, your body is moving past the walkway at the same speed as the train. Its natural tendency is to keep moving in the same direction at the same speed, but once you step onto the walkway, that means your body wants to move along the walkway at the speed of the train. You have to slow your body down gradually, which you can only do by deftly manipulating the contact between the walkway and your feet. If you stepped off and expected to just stand there, your feet might stay on the walkway, but the rest of you still needs to keep going at the speed of the train, resulting in a phenomenon known as "falling down".
bites per second
If the net force on a body is zero, then the body will not accelerate ... its speed and direction of motion won't change. If it was moving a second ago, then it will continue moving at the same speed and in the same direction. If it was not moving a second ago, it won't start moving.
Typically, mbps (megabits per second)
Speed and velocity cannot be unequal for the same object. Speed tells you how quickly something is moving (as measured, for example, in meters per second) and velocity tells you how quickly something is moving and in what direction it is moving.
Earth.
That's the so-called "speed of light", which is about 300,000 km/second (3 x 108 meters/second).
If an object covers equal distance in equal intervals of time, we can say that the object is moving with a uniform speed. E.g. consider an object moving along straight line. Let it travel 5 m in the first second, 5 m more in the next second, 5 m in the third second and 5 m in the fourth second. In this case, the object covers equal distance in equal intervals of time so we can say that the object is moving with a uniform speed.
The frame of reference with regard to postion, speed and acceleration is just your perspective in measuring speed, position, or acceleration. Say you are watching a horse and a train moving alongside each other in the same direction. If you are standing on still ground, you observe the horse and the train moving at a certain speed relative to you. Let's assume this speed is three meters per second. Now suppose you are on the train looking at the horse, which is still moving at the same speed in the same direction. You will see the horse moving at zero meters per second relative to you, because both you and the horse are moving at the same speed. Even though you are both moving, the horse will still move along side you as if you and the horse are standing perfectly still. The frame of reference with regard to postion, speed and acceleration is just your perspective in measuring speed, position, or acceleration. Say you are watching a horse and a train moving alongside each other in the same direction. If you are standing on still ground, you observe the horse and the train moving at a certain speed relative to you. Let's assume this speed is three meters per second. Now suppose you are on the train looking at the horse, which is still moving at the same speed in the same direction. You will see the horse moving at zero meters per second relative to you, because both you and the horse are moving at the same speed. Even though you are both moving, the horse will still move along side you as if you and the horse are standing perfectly still.