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Q & A: Equations: The speed of a falling object

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Most recent answer: 08/25/2015
what is the formula for the speed of a falling object?
- dennis

Dennis -

As an object falls, its speed increases because it’s being pulled on by gravity. The acceleration of gravity near the earth is g = -9.81 m/s^2. To find out something’s speed (or velocity) after a certain amount of time, you just multiply the acceleration of gravity by the amount of time since it was let go of. So you get: velocity = -9.81 m/s^2 * time, or V = gt. The negative sign just means that the object is moving downwards. If it were positive, then it would be moving up. For speed rather than velocity, you just drop the negative sign.

If you have an initial velocity (if you threw the ball up or down instead of just letting go of it), then you have to include this in the equation, too, giving you: V = Vo + gt, where Vo is the initial velocity of the object. This equation will still work if you threw the ball to the side, instead of straight up or down, except that it will only give you the up-down velocity, not the total velocity. (And the number you should use for Vo is still just the up-down velocity that the object starts with.)


(published on 10/22/2007)

Follow-Up #1: Time of fall?

How does one determine the time and velocity of a fall if you only have the distance of the fall?
- Ned
Bothell, WA, USA
Well you need one more fact, the acceleration.   If you are at the surface of the earth the acceleration is g = 32.2 feet/sec2 or 9.8 meter/sec2.  Integrating the acceleration once gives V = Vo + g T  where Vo is the initial velocity, presumably zero, and T is the time of fall.   Integrating once more gives d = Vo T + gT2/2.   So taking Vo = 0 you get
T = sqrt(2d/g) and V=sqrt(2dg). 


That V Lee gives is the final V. In case you want  the average V over the fall, it's half that.  Mike W.

(published on 08/10/2009)

Follow-Up #2: How long would it take to fall to the Sun?

If the Earth stopped moving around the Sun and just "fell" toward the Sun, how long would it take to "fall" to the Sun and how do you calculate it?
- Brad (age 17)

You can borrow Kepler's 3d law, that the orbital period is proportional to R3/2, where R is the long axis of the orbit ellipse. Falling into the sun is just half of an orbit whose ellipse just reaches the Sun, so with half the R of the Earth's yearly orbit. That whole other orbit would thus take 2-3/2 years so the falling time is 2-5/2 years, or ~65 days.  Mike W.

(published on 08/25/2015)

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