by the laws of motion(s=ut+gt2) you can easily find out the answer, where s is the height, u is the initial velocity(in this case its 0), g is the acceleration due to gravity. since u is 0 the equation reduces to s=gt2 the answer is about 3.1 sec
It would take approximately 50 seconds for an object to fall 60,000 feet in a vacuum without air resistance. However, in reality, factors like air resistance would affect the actual time it takes for the object to fall.
It will take approximately 7.1 seconds for an object to fall 500 feet assuming free fall in a vacuum. This time can vary slightly depending on air resistance and other factors.
When an object is dropped from a certain height, the time it takes to reach the ground is independent of the height (assuming no air resistance). Therefore, whether you drop the object from three times the initial height or the original height, it will still take the same time (T) to reach the ground.
Surely you're aware that a falling object accelerates under the influence of gravity. That acceleration manifests itself in the form of steadily-increasing speed, so the time required to fall 186 feet depends on how long it has already been falling. -- Immediately after it's dropped, the object falls the first 186 feet in 3.399 seconds. -- It falls the NEXT 186 feet in 1.408 seconds. -- It falls the next 186 feet in 1.08 seconds. -- It falls the next 186 feet in 0.911 second. -- It falls the next 186 feet in 0.802 second. . . etc.
Moving an object with your mind, also known as telekinesis, is considered to be pseudoscience and not proven to be possible. Therefore, there is no specific time frame associated with moving an object with your mind as it is not a recognized ability in the scientific community.
8 seconds
2.666666667 seconds
It would take approximately 50 seconds for an object to fall 60,000 feet in a vacuum without air resistance. However, in reality, factors like air resistance would affect the actual time it takes for the object to fall.
depends on weight of object and wind strength.normally heavy objects will drop down faster than lighter objects.
-- Take a heavy object and a stopwatch. -- Start the timer as you drop the object from the unknown height. -- Stop the timer when the object hits the ground. -- Read the time off the watch, in seconds. Square it. (Multiply it by itself.) -- Multiply that result by 16.1 . -- Now you have the distance the object fell, in feet.
An object that is 85 feet long could be a standard basketball court, which measures 94 feet in length. It could also be a bowling lane, which typically ranges from 60 to 80 feet long. Another possibility is a standard fire truck, which can measure around 85 feet in length, including the cab and trailer.
It depends on what height you drop it from.
It will take approximately 7.1 seconds for an object to fall 500 feet assuming free fall in a vacuum. This time can vary slightly depending on air resistance and other factors.
Take an amount of water of which you know the volume. Drop the object in the water. Find the difference
Based on your question alone, it is impossible to tell how many millennia it would take for an object "like this" to be buried 300 feet in the ground. We cannot see the object to which you are referring.
When an object is dropped from a certain height, the time it takes to reach the ground is independent of the height (assuming no air resistance). Therefore, whether you drop the object from three times the initial height or the original height, it will still take the same time (T) to reach the ground.
[object Object]