At G = 32.17 feet/second2, the distance you fall in 3.5 seconds is 197 feet. (1/2 A T2)
3 sec
Parallactic second is the unit of distance because parallactic second is abreviation of per sec.
the equation for average velocity a = s/t s = distance travelled t = time examples miles/hour, meters/sec
The easiest way is to convert Miles per Hour to Feet per second. I have the following relationship memorized: 60 MPH = 88 Feet/sec.(35 MPH)/(60 MPH)*(88 Ft/sec) = 51 1/3 Ft/sec. So multiply by 1 sec. and you have 51 1/3 Ft, or 51 feet and 4 inches.
1 litre per sec = 0.001 cubic metres per sec.
Water doesn't fall slowly or gently. It may flow down a slope differently than if it were falling, but when it falls, it does so at the same rate of acceleration as any other falling solid or liquid:32 ft/sec/sec.
1.85456302 yards per sec.
That would be the escape velocity of Earth, about 11.2 km/sec. I am assuming that the object falls from far, far away, and that air resistance is negligible.That would be the escape velocity of Earth, about 11.2 km/sec. I am assuming that the object falls from far, far away, and that air resistance is negligible.That would be the escape velocity of Earth, about 11.2 km/sec. I am assuming that the object falls from far, far away, and that air resistance is negligible.That would be the escape velocity of Earth, about 11.2 km/sec. I am assuming that the object falls from far, far away, and that air resistance is negligible.
3 sec
160m
I don't know the geometry of this, but any body falling to earth will have acceleration of 32 ft/sec/sec, so you can work out the time to fall from standard equations. In this case s = ut + 1/2 f x t squared, where u = initial velocity (probably zero), f = 32, s = distance of fall.
Terminal velocity (top speed) for a human falling through the air is about 120mph. Even though gravity attempts to continuously increase velocity at a rate of 30 ft/sec for every second of fall, increasing air density prevents the increase.
distance = rate x timedistance = (6.0m/sec)(8.0 sec)distance = 54 m
It accelerates at the rate of 9.8m/s^2 (32.15f t/sec^2).That means its velocity increases 9.8 m/s (32.15 ft/sec)each second, until it hits the ground.
First change mi/hr into ft/sec. There 1 mi = 5280 ft and 1 hour = 3600 sec. 6 mi/hr = 6 * (5280 ft / 3600 sec) = 8.8 ft / sec To figure out how fast you travel any distance you divide the distance by time it took you. distance / time = speed 205 ft / time = 8.8 ft / sec Solving for time: time = 205 ft / (8.8 ft / sec) time = 23 sec
not very far
3 sec