It depends on the size, shape and weight of the object.
That's only if air drag is important. Otherwise, on Earth, Galileo showed things accelerate all at the same rate. Approximately 1/2 x 32 x 42 or 256 ft. if it started at zero speed.
Wiki User
∙ 11y ago(4 meters/second)(40 seconds) = 160 meters.
seconds to hour = divide 3600 3600divided by 4=900 hrs d=SxT =45x900=40500km\hr
4 minutes 30 seconds
Distance of fall in T seconds = 1/2 g T2Distance of fall in 2 seconds = (1/2) (9.8) (2)2 = (4.9 x 4) = 19.6 metersHeight of this particular ball after 2 seconds = (70 - 19.6) = 50.4 meters
250 seconds = 4 minutes and 10 seconds.4 minutes x 60 = 240 seconds+10 seconds = 250 seconds
Assuming the object is falling under gravity, it will fall approximately 78.4 meters in 4 seconds. This is based on the formula: distance = 0.5 x acceleration due to gravity x time squared.
4 seconds
4 Seconds
(4 meters/second)(40 seconds) = 160 meters.
Exit - 2013 Sand for Something or Fall for Everything 1-4 was released on: USA: 2013
The period of the wave is 4 seconds, as it takes 4 seconds to complete one full cycle (rise and fall). The frequency of the wave is 0.25 Hz, as it completes two cycles (rises and falls) in 4 seconds. Frequency is the reciprocal of period, so 1/4 = 0.25 Hz.
As you know the Bird is quite light so, you can let it fall for a few seconds until it is approximately 3 seconds to 4 and then hit it.
40 x 4 = 160m
As you know the Bird is quite light so, you can let it fall for a few seconds until it is approximately 3 seconds to 4 and then hit it.
In 4 seconds of free fall, an object would fall approximately 78.4 meters, assuming no air resistance. This calculation is based on the acceleration due to gravity being approximately 9.81 m/s^2.
seconds to hour = divide 3600 3600divided by 4=900 hrs d=SxT =45x900=40500km\hr
you just tap something and you fall and beat the game