no unless in a totally controlled condition because a feather falls slower than a brick air resistance and many other factors are taken into affect it can also depend on the weight of the hat, and the angle of the hat when dropped.
Answer: 66 Meters. Just had that same problem on a math mates worksheet.
The answer is 91 ft, of course!
The formula for the area of a parallelogram is heightxbasethe reason that that is the formula is because it has th same height on both sides and the base stays the same even if it was on a unique angle and that's how you get the area of a parallelogram.The area of a parallelogram is base time height.
It works out as 12 feet and 4 inches in height
I assume you refer to the formula distance = velocity x time. If an object moves upward, the distance would become the height.
Falling objects behave in such a way that heavier objects will fall faster than the lighter ones. Try to drop a stone and a feather from the same height and at the same time, the stone will fall to the ground first.
If they are released at the same time at the same height they will hit the ground at the same time.
Yes, they will if they are drooped from the same height and at the same time they will hit the ground at the same time
If both raindrops are dropped at the same time from the same height, then no, it does not take any longer, They will hit the ground at the same time because the vertical distance to the ground remains the same.One just travels further away
Assuming you have the same mass you could use the formula h=-16t^ 2+ c H stands for height of falling object after time c stands for height dropped from t stands for time
In an evacuated environment, i.e. in the total absence of air, a leaf and an elephant releasedfrom the same height at the same time fall with the same acceleration, acquire the same velocityat any instant during their fall, and end their respective experiences by encountering the groundat precisely the same time.
drop a heavy object and a light object from the same height at the same time. time it with a stopwatch, or just watch them.
The acceleration of gravity is 32 feet per second, per second. This means that --eliminating any obvious aerodynamic considerations as there would be with, say, a feather -- the speed at which an object falls increases proportionately to the time it is falling. An object falling from a greater height will be falling for a longer time period and thus will reach a higher velocity and impact the ground with a greater force than one falling from a lower height.
Gravity has the same amount of gravitation pull that keeps us from falling of the earth. Think of it this way the gravity on earth keeps skyskrapers from falling off the earth just as easy as it is to keep a pencil from falling of the earth so if you drop the two at the same time and height they will both hit the ground at the same time "unless'' it is air resistent meaning that the flow of air will go through it such as paper. :)
They will both hit the ground at the same time.
Assuming both were dropped from the same height above ground, in a vacuum both would hit the ground at the same time. In a significant atmosphere (e.g. average ground-level on Earch) the bowling ball would hit the ground first.
drop a brick and a feather at the same time.. u tell me