Difference between revisions of "HangingBallast"
(→Description) |
(→Detail) |
||
| Line 6: | Line 6: | ||
== Detail == | == Detail == | ||
| − | + | You can make more efficient use of your ballast by hanging it lower down and also by using several cables going to a single ballast. If there are several cables, then when the structure tries to tilt the weight of the ballast is shifted onto the side that is trying to lift up. In this case the full ballast weight is trying to pull the high side back down so the structure is level. Here is a video that shows some experiments with hanging ballast to demonstrate the difference between multiple cables to a single ballast and multiple cables to smaller ballasts. | |
| − | |||
| − | |||
| − | |||
| − | + | <youtube v="zqSjDemhT7g" /> | |
| + | |||
| + | Static stability is when things are not moving, like when we slowly added weights to one side in the previous video. For static stability the length of a single cable does not matter. For static stability it is the same as if the weight was at the top of the cable. | ||
| + | |||
| + | Dynamic stability is concerned with stability while moving in waves. The waves can not make the ballast swing back and forth when it is on a very long cable, so it continues to pull almost straight down even when there are waves. For dynamic stability a longer single cable makes a difference as can be seen by comparing the following two videos. First with a very short rope the model swings in the waves: | ||
| + | |||
| + | <youtube v="8Ad1lzixLfg" /> | ||
| + | |||
| + | With a long single line to the ballast the model has very good dynamic stability: | ||
| + | |||
| + | <youtube v="HqZY7LYdLHk" /> | ||
| + | |||
| + | So the picture below could be more stable if the cables were longer and they went to a single ballast. | ||
http://farm3.static.flickr.com/2313/2534491378_50db429f2c.jpg | http://farm3.static.flickr.com/2313/2534491378_50db429f2c.jpg | ||
Revision as of 19:48, 3 September 2008
Description
For single-spar designs which are gravitationally stable (C_g below C_b), rather than having the ballast at the bottom of the spar, we could hang it from the spar for additional stability.
Detail
You can make more efficient use of your ballast by hanging it lower down and also by using several cables going to a single ballast. If there are several cables, then when the structure tries to tilt the weight of the ballast is shifted onto the side that is trying to lift up. In this case the full ballast weight is trying to pull the high side back down so the structure is level. Here is a video that shows some experiments with hanging ballast to demonstrate the difference between multiple cables to a single ballast and multiple cables to smaller ballasts.
<youtube v="zqSjDemhT7g" />
Static stability is when things are not moving, like when we slowly added weights to one side in the previous video. For static stability the length of a single cable does not matter. For static stability it is the same as if the weight was at the top of the cable.
Dynamic stability is concerned with stability while moving in waves. The waves can not make the ballast swing back and forth when it is on a very long cable, so it continues to pull almost straight down even when there are waves. For dynamic stability a longer single cable makes a difference as can be seen by comparing the following two videos. First with a very short rope the model swings in the waves:
<youtube v="8Ad1lzixLfg" />
With a long single line to the ballast the model has very good dynamic stability:
<youtube v="HqZY7LYdLHk" />
So the picture below could be more stable if the cables were longer and they went to a single ballast.
http://farm3.static.flickr.com/2313/2534491378_50db429f2c.jpg
