Balsa Tower
This balsa tower was 12 inches tall, 8 inches wide at the base, and tapered to a 2 inch square at the top. I only have about forty pounds of sand, so I ended up adding any heavy object in sight to the bucket. After putting in the ceramic mug used to pour the sand, a chain, paper weights, the total weight supported was 50 pounds. The tower did not actually break, but one of the legs was bending almost to the point of breaking. The efficiency score was just over 2000.
As you can see, instead of using X’s, I only have a zig-zag pattern. That was because I wanted to see if I could “trick” the system. In a tower like the one above, the four legs are in compression. When the load is applied perfectly vertically, the rest of the members have no load until the legs begin to twist or bend.
Because the legs are square pieces, they have equal resistant to bending in all directions. The X’s only serve to break the main legs into smaller sections, which increase the strength.
Similar Posts
Post Meta
Post Category: photos, science olympiad
Post Tags: balsa tower, photos
24,285 views
(12 votes, average: 3.42 out of 5)
Loading ...
sweet tower
I am a teachers aide at the Middle School in a Technology Lab. We construct this type of towers for the 7th & 8th Grade students. I reconstructed this tower using our pattern guidelines. The guidelines for our towers are 8 inches tall, and 15 grams is weight.
My tower was 8 inches tall and the total weight was 6 grams. I tested it using the tower tester we test the student towers. It was designed by the Pitsco company from Pittsburg, Kansas (www.pitsco.com). After testing my tower it held 110 pounds of weight before the tower failed.
To test the efficiency of my tower I used the efficiency chart that the 6th grade students use to test the truss ( side of a bridge) made out of paper straws and glue. Their efficiency is measured by dividing the weight held by the truss to the weight of the truss itself.
Here is my formula for the efficiency:
1 oz = 28.35 grams
16 oz = 453.6 grams or 1 pound
Dividing the weight held by the weight of the tower I found that my tower’s efficiency was 32.49%.
did you do your sides just like him? and also, how wide was your base and top?
Randy, thanks for sharing. However, I don’t quite understand how you are calculating the efficiency. The way I would do it is to divide 110 pounds by 2.2. This is to get kilograms. Then I would multiply that by 1000 to get the mass held in grams. Then I would simply divide that number by 6 (the weight of the tower) to get the efficiency.
The score I calculated for your tower was 6250, which is an incredible score.
Great tips!!! I have used your site for boomilevers, bridges and now towers. So far I have gotten great tips along with the science. Thanks for the good grades.
The tower I need to construct has to be 35 cm (13.8 inches) in height, just a little bit taller than yours. Your design looks good but I will only make it a little bit taller for mine.
Thanks a ton.
hey nice tower i am actully building one myself and wondered if there was any tips u could give me. i was also wondering how u used ony one support beam on the sides.if u could please respond that would be great.
I accually have to build one next week so I was looking up diferent ways to build Balsa towers. That is a great design dude.
hey there im so sorry that u never provide more than 3 imeges
I have to make a Balsa Tower using only 20 feet of Balsa wood, with at least three sides between 2 and a half to 4 inches. the height must be between 8 inches and 10 inches. the top must be flat to hold things, like yours was. do you have any suggestions for me?
i am building a balsa wood tower and wanted some advice on how to put it together.
wat is the best way to build a balsa wood tower 3in by 3in please responde