Upload

Loading icon Loading...

This video is unavailable.

Feather and Ball Bearing Dropped in Vacuum

Sign in to YouTube

Sign in with your Google Account (YouTube, Google+, Gmail, Orkut, Picasa, or Chrome) to like teralabUK's video.

Sign in to YouTube

Sign in with your Google Account (YouTube, Google+, Gmail, Orkut, Picasa, or Chrome) to dislike teralabUK's video.

Sign in to YouTube

Sign in with your Google Account (YouTube, Google+, Gmail, Orkut, Picasa, or Chrome) to add teralabUK's video to your playlist.

Uploaded on Jun 14, 2008

We are all told at school that in a vacuum, all objects accelerate under gravity at the same rate, regardless of their mass, shape or size. This is something that I had never witnessed first hand. During the Apollo 15 mission, David Scott dropped a hammer and a feather on the moon to demonstrate that they would hit the ground simultaneously. The result of this demonstration looks rather strange though because of the low lunar gravity. It looks more like the hammer is falling abnormally slowly. I decided I wanted to witness this phenomenon first hand, so set up an experiment in the bell-jar vacuum rig.

As space is limited in the bell-jar, I decided to use a steel ball bearing rather than a hammer. The feather was held in place with a relay and the ball bearing was held by an electromagnet. The two were powered from the same supply so that they could be de-energized, simultaneously dropping the feather and the ball bearing.

The ball bearing weighs 67g and is 1 inch in diameter. The feather is less than 0.1g and does not register on my balance. It is 73mm long. I placed some crumpled up aluminium foil under the ball bearing to absorb the impact and prevent it from rolling or bouncing inside the bell-jar.

Loading icon Loading...

Loading icon Loading...

Loading icon Loading...

Loading icon Loading...

Ratings have been disabled for this video.
Rating is available when the video has been rented.
This feature is not available right now. Please try again later.

Loading icon Loading...

Loading...
Working...
to add this to Watch Later

Add to