How to make sand timers
-
Senior06
- Posts: 1
- Joined: Wed Oct 26, 2005 3:08 pm
How to make sand timers
I am trying to find out differnt ways to make timer between 30 and 90 seconds. I have some ideas but i dont know how to build it. Help Me
Victoria is going to graduate but i need to pass physics. HAHA
-
Jim Lewandowski
- Posts: 64
- Joined: Tue Nov 25, 2003 12:55 pm
I can't vouch for the source, but...
It seems interesting...
From,
http://www.florilegium.org/files/TIME/S ... s-art.html
HAT MAKES AN HOURGLASS TICK? Scientists have discovered that the sand grains in an hourglass flow continuously only in those hourglasses with the proper ratio of neck width to grain diameter. For ratios outside the proper range, the hourglass "ticks": the grains alternate between flowing and not flowing at a constant rate. Researchers at the University of Pittsburgh (contact Xiao-lun Wu, 412-624-0873) and the University of Rennes in France have found that this "ticking" effect is caused by tiny pressure differences--typically, 1/10,000 of an atmosphere--between the upper and lower halves of the hourglass, and also by the formation of arch-like structures in the grains. Small external disturbances can alter the ticking rate--or stop the flow entirely. This knowledge can potentially be exploited to manipulate granular materials in silos and hoppers, which have geometries similar to that of an hourglass. In addition to showing the importance of air in an hourglass, this experiment demonstrates the tendency of granular materials to act as a collective substance--in this case, through the formation of arches--rather than as individual particles. This collective state of matter is neither a solid nor a liquid. For example, a normal liquid would flow more slowly through an hourglass as level decreased. (X-l. Wu et al, Phys. Rev. Lett, 30 August 1993.)
From,
http://www.florilegium.org/files/TIME/S ... s-art.html
HAT MAKES AN HOURGLASS TICK? Scientists have discovered that the sand grains in an hourglass flow continuously only in those hourglasses with the proper ratio of neck width to grain diameter. For ratios outside the proper range, the hourglass "ticks": the grains alternate between flowing and not flowing at a constant rate. Researchers at the University of Pittsburgh (contact Xiao-lun Wu, 412-624-0873) and the University of Rennes in France have found that this "ticking" effect is caused by tiny pressure differences--typically, 1/10,000 of an atmosphere--between the upper and lower halves of the hourglass, and also by the formation of arch-like structures in the grains. Small external disturbances can alter the ticking rate--or stop the flow entirely. This knowledge can potentially be exploited to manipulate granular materials in silos and hoppers, which have geometries similar to that of an hourglass. In addition to showing the importance of air in an hourglass, this experiment demonstrates the tendency of granular materials to act as a collective substance--in this case, through the formation of arches--rather than as individual particles. This collective state of matter is neither a solid nor a liquid. For example, a normal liquid would flow more slowly through an hourglass as level decreased. (X-l. Wu et al, Phys. Rev. Lett, 30 August 1993.)
Jim Lewandowski
Engineering Physicist
Stanford Linear Accelerator Center
Engineering Physicist
Stanford Linear Accelerator Center
-
Jim Lewandowski
- Posts: 64
- Joined: Tue Nov 25, 2003 12:55 pm
Here are the Phys Rev papers
I'm not sure if this will help you "build" an hour glass, but there are some equations relating the flow rate to the radius of the "neck" of the hour glass.
Here is a link to two phyiscs papers on the subject. They are pdf's.
http://www.stanford.edu/~lewand/papers/
Here is a link to two phyiscs papers on the subject. They are pdf's.
http://www.stanford.edu/~lewand/papers/
Jim Lewandowski
Engineering Physicist
Stanford Linear Accelerator Center
Engineering Physicist
Stanford Linear Accelerator Center
-
Jim Lewandowski
- Posts: 64
- Joined: Tue Nov 25, 2003 12:55 pm
Maybe better
Here's a link thats is hopefully a bit more basic, I should have started you with this one.
http://www.loc.gov/rr/scitech/mysteries/hourglass.html
http://www.loc.gov/rr/scitech/mysteries/hourglass.html
Jim Lewandowski
Engineering Physicist
Stanford Linear Accelerator Center
Engineering Physicist
Stanford Linear Accelerator Center

