Less. Think about it. Why might you run to catch a bus or a ball?
That depends how fast you're going. If you're traveling at an average 60 kph, you'll cover 40 km in 40 minutes. Faster, more distance. Slower, less distance.
To measure an object's speed, you need to measure the time it takes to do a measured distance. For instance, if a car travelled at sixty miles per hour, ignoring traffic and roadworks, etc, it would expect to cover a distance of sixty miles in that hour.
well i can cover that distance sprinting in 3 seconds
Speed = (Distance)/(Time to cover the distance)
It is at the back of you or an object
The faster you go, the more distance you can cover in the same ammount of time than if you were going slower or the faster you can cover a certain distance.
Speed=Distance travelled by the object /Time taken to cover the distance.
The time that it takes for it to cover that distance.
An object's speed is (distance it travels) divided by (time to cover the distance). The object's mass doesn't matter at all.
(distance the object covers in some time) divided by (length of time to cover that distance) is the object's average speed during that time.
An object's average speed is(the distance it traveled during some time)/(the time it took to cover the distance).
Speed is the rate at which an object moves. To determine the rate at which that object moves, we'll have to look at a given distance that it covered when it moved, and at the time it took to cover that distance. The distance per unit of time is the speed of the object.
Left wheels slower on a left turn. Right slower on a right turn.
When an object accelerates it can change its speed or direction of motion. When it accelerates without changing its direction of motion, it can cover any distance in less time.
When a object travelled equal distance cover with equal internal of time
-- Higher refractive index for a substance means light travels slower through that substance. -- The rate at which the electric and magnetic fields in the wave are wiggling (the frequency) doesn't change, regardless of what substance the wave is moving through. -- The distance between wiggles is the wavelength. Since the light is progressing slower through the substance, it can't cover as much distance between wiggles.
The hemispherical shape of a typical parachute is associated with a very high drag coefficient, which means for any given wind speed and air density combination, the actual force of drag is very high. Also parachutes are typically large which makes the drag force proportionaly higher. What this all means is that the drag required for an unaccelerated decent (which is equal to the weight) can be acheived with a much slower speed through the air (a non life-threatening speed upon landing). An object moving slower takes more time to cover a constant distance, so the parachute carries its object in the air longer.