Build a pendulum wave apparatus.
- 2 metre sticks (or a metre stick and a ruler or tape measure)
- 3.5 meters of string (roughly)
- Nine weights that can be easily attached to a piece of string (e.g. nuts, washers, masses with hooks)
- Two stacks of books, each at least one metre high
- Cut nine pieces of strings with the following lengths: 44 cm, 41 cm, 39 cm, 37 cm, 35 cm, 33 cm, 31 cm, 30 cm, 29 cm.
- Starting at about the 10 cm mark on the metre stick, tie a piece of string at each point located every 9 cm along the ruler (roughly). Use a small piece of tape to help secure each piece of string to the stick.
- Use the two book stacks to support both ends of the metre stick. The metre stick should make a “bridge” connecting the books.
- Attach one weight to the free end of each string. Thread the string through the hole or hook on each weight and, using your ruler or tape measure, adjust the lengths to exactly match the following table, starting with the longest string. Once you get the lengths right, tie the string to the weight.
- Once you have all nine pendulums constructed, use the ruler (or a large book or even your arm) to scoop all the pendulums towards you by a few inches.
- Let all the pendulums go at once so that they swing perpendicular to the metre stick from which they are hanging.
- Enjoy the show! It’s best to watch the pendulums either from above (looking down) or from one end of the metre stick (viewed along its length). How many different patterns do you see? Does anything repeat? If any patterns do repeat, how long does it take for them to do so?
The pendulum ensemble will cycle through a number of patterns over a 30 second interval. You’ll see everything in sync, pendulum waves of varying lengths rippling down the line, alternating swings (half the pendulums going one direction, half going the other), and even seemingly chaotic motion.
The lengths of the pendulums are designed so that all of them complete a different whole number of swings every 30 seconds. The first (longest) pendulum swings 25 times in 30 seconds, the next one 26 times, the next one 27, and so on; the final (shortest) pendulum completes 33 swings in the same interval. This means that every 30 seconds, all the pendulums will swing to one side together.
Everything that happens in the middle of this interval is a stunning display of many pendulums, each with a slightly shorter period than the previous one, moving in and out of phase with one another. As the shorter pendulums start getting ahead of the longer ones, they slightly “lead” the ones next to them and create a wave effect along the metre stick. At 15 seconds—halfway through the 30-second cycle—every other pendulum (starting with the second longest) will have completed a whole number of cycles, while the remaining pendulums are all synced together at a “half cycle”. When this happens, half the pendulums are all grouped together on one side, with the remaining pendulums grouped together on the other side.
You can modify the apparatus to add more pendulums or create a longer cycle than 30 seconds. The trick is to first decide how long you want the overall cycle to be (we used 30 seconds in this design, but it can be as long as you like). Then, decide how many times you want the longest pendulum to swing back and forth in that interval. With that in mind, the period of each successive pendulum has to be set so that it swings one more time than the previous one in the same interval.
Remember that the period of an ideal pendulum depends only on its length:
- Where G= 9.8 m/s is the acceleration due to gravity,
- LIs the pendulum length (in meters), and
- TIs the period in seconds.
The number of times (N) a pendulum will swing in the overall cycle is represented by
- Where TMaxIs the overall cycle length in seconds.
Alternatively, you can use the following shortcut to design your own pendulum wave apparatus:
…which tells you the length, L(n), of the N-th pendulum, where KIs the number of cycles the whole apparatus goes through before repeating the pattern.