@@YeanyScience youtuber Nick Moore had one built on a similar manner: vacuum + pressure chamber. He made a separate channel "supersonic cannon of science" or somerhing similar. In case you have technical difficulties, he might help.
I remember the supersonic ping pong ball from mythbusters, they found out that air that push the ping pong ball always managed to go around the ball through the tiny gap between the ball and the barrel. So at some point, the length of the barrel will no longer add speed, and even worse in vacuum canon, since some of the escaped air will actually act as cushion and prevented the ball to go through the other end.
I've been making these for years but it's really funny how I just got done making mine again last night and it worked perfectly and then this showed up in my feed this morning
Thank you for sharing your knowledge. I was just looking for something for a project I am doing that I know will work. Now, not only do I know it will work but, I also know how and why. Much appreciation!!
Honestly you're much better than Steve Spangler. He might have a bit of showmanship but you have the skills, knowledge and can interestingly tell what you're doing. Keep it up Bruce!
I just made the vacuum cannon for my physics class. They loved it. It will make ballistic pendulums a lot more exciting next year. Thanks for the video and the idea.
I've wanted to make one of these since I saw the episode on myth busters. These videos gave me the motivation to go ahead and do it. I've had a bit of trouble with cheap mylar balloons failing prematurely so I've switched to the slightly thicker mylar used in some snack food bags. (pirate's booty is the junk food of choice around here) I have a 5 ft tube and so far have been able to get to about 250 mph. I plan to try a few other types of balloons as I think the thicker mylar may be slowing me down. Thanks for the idea! I really enjoyed the videos!
Nice to hear that you went ahead and tried it, I started with a 4 foot tube, went to 6 foot and finally 8 foot, speed increased with each change, something else to consider
That was amazing, I never heard of Vacuum Cannon before, and now I think I know why cannons have a long tube (called barrel I think). can't wait for part 2 Thanks
Noticed at the 12:12 mark when the combined vacuum and compressed air cannon fires you can see some sort of oscillation at the end of the barrel where it appears as if the gasses were attempting to equalize by rapidly flowing in then out then into the barrel end. I hope we get an explanation for that in part 2.
I was gonna comment that you should vacuum tube the the barrel of the pressure cannon but you granted my wish! Also, another reason bit might slower is due to the need to accelerate air already in the barrel of the pressure cannon. With vacuum cannon you have no such resistance.
A projectile hole is always the same shape. Can you tell us anything about that Brucey? Whether it's an airgun through glass or a ball through a window always the same keyhole looking shape. I even once saw a pigeon fly into and crash through a window and the hole was the same shape. A keyhole looking shape....
I made the vacuum cannon and am having trouble getting the ball to exit. Mythbusters used regular packing tape to seal the ends, so I am as well, but the ping pong ball only exits every 3 or so shots. Other times it seems to hit a cushion of air and stop before the end. The ball is almost an exact fit for the pipe, so not much air is getting around, but I still can't get anywhere near the speeds in this video, and that's if it fires out at all.
In the pressure cannon, the air in front (target side) of the ball must be accelerated in order to get out of the way of the ball. Air is heavy. The air inside an ordinary refrigerator weighs about 1 kg or 2 lbs. The longer the barrel, the more air must be accelerated so that the ball gets a smaller proportion of the total energy.
I imagine the compressed air cannon would benefit from a sort of scupper valve once the barrel length gets long enough. I would rework that ball valve so it can easily snap open, or exchange it for a fast acting butterfly valve.
Agree! In the video we can see the valve still opening after the ball hitted the can. If the valve could be opened a little bit faster, all that pressure could be released more faster. @Bruce you could think on a way to open that valve more faster.
Bruce Yeany Check out Night Hawk In Light’s channel. He made a few really nice vacuum cannons. By the way, your making me contemplate switching from teaching Special Ed to teaching science/physics. lol!
I don't remember the formula now, but, theoretically, the maximum velocity of the air filling a tube with barometric pressure 0 should be equal to light velocity. The barrel in this video don't have barometric pressure equal to 0, and have a lot of gaps to do it workable, and there is the ball's inertia.. it is very hard to calculate the theoretically maximum speed of the ball.
you should combine both of the canons by trasphering all the air from the barrel into a airtank behind a valve to add even more pressure difference between the ball
As in the tube or barrel be in vacuum state where there is less air resistance for the ping pong ball to travel through and the compressed air providing extra thrust to propel it.. just connect the two cannon together which you would only need to cap the exit end of the barrel while the inlet side would be sealed with the compress air mechanism as shown in the video
Sir there is a you tube channel called Smarter everyday. He does altra slow motion and is also holds degree in aerospace engineering. I think he will be glad to film it for us. Meanwhile can you please tell us some home science projects during covid lockdown. Thanks and stay safe.
Physics girl was able to barely measure the output velocity of the vaccum cannon, allowing us to combine it with your video to compare it.... But the one thing I find interesting is that a certified physicist did not think of speed stops while a science teacher did, allowing for better scientific results. And that a can crushes while a tennis ball absorbs the hit so well.
@@YeanyScience It would be a sizable bit of engineering to accomplish. But I'm sure it could be done. Although quite expensive to make the barrel a vacuum chamber.
Uncle Schickelgrubber What’s wrong with thin walled spacecraft? Was just 5psi inside the Apollo cabin after all. FYI a plastic soda bottle can hold way over 100 psi. And calling infinite vacuum is like saying infinite black. No such thing.
3:45 Dear Bruce, I am from Germany and know none of these units even thou I studied computer science here and speak several languages. Please also add metric units to your videos since most people on the planet are used to them. :-)
Just impatiently waiting for part two :D
Nice demos!!
I'm about halfway through and keep changing, I may have to have 3 parts
@@YeanyScience youtuber Nick Moore had one built on a similar manner: vacuum + pressure chamber. He made a separate channel "supersonic cannon of science" or somerhing similar. In case you have technical difficulties, he might help.
I remember the supersonic ping pong ball from mythbusters, they found out that air that push the ping pong ball always managed to go around the ball through the tiny gap between the ball and the barrel. So at some point, the length of the barrel will no longer add speed, and even worse in vacuum canon, since some of the escaped air will actually act as cushion and prevented the ball to go through the other end.
I haven't seen that episode but am finding the same thing and will show it in part two
+ longer tube = more friction.
@@YeanyScience hello Bruce, sorry to bother but there is religious promotion in this comment section which shouldnt be on a science channel
I've been making these for years but it's really funny how I just got done making mine again last night and it worked perfectly and then this showed up in my feed this morning
Fabulous Bruce ! Wonderful video! Thank You! Looking forward to part 2 🙏☺️
still working on part two which is a lot of fun, it may have to go into part 3
I'm pretty excited for part two!
I take it back, you are NOT MacGyver, you are Rambo!!!!!!!!!!!!!! LOL. Stay safe and healthy.
It’s great to see you doing well Mr. Yeany!!
Thank you for sharing your knowledge. I was just looking for something for a project I am doing that I know will work. Now, not only do I know it will work but, I also know how and why. Much appreciation!!
Nice work, thank you.
Have you tried anything heavier than a ping pong ball?
Honestly you're much better than Steve Spangler. He might have a bit of showmanship but you have the skills, knowledge and can interestingly tell what you're doing. Keep it up Bruce!
Really great stuff once again! Another entry in my long list of stuff that I want to build...
I just made the vacuum cannon for my physics class. They loved it. It will make ballistic pendulums a lot more exciting next year. Thanks for the video and the idea.
I'd love to see how it works out for you, why not post a video on it
Superb Robert.
I've wanted to make one of these since I saw the episode on myth busters. These videos gave me the motivation to go ahead and do it. I've had a bit of trouble with cheap mylar balloons failing prematurely so I've switched to the slightly thicker mylar used in some snack food bags. (pirate's booty is the junk food of choice around here) I have a 5 ft tube and so far have been able to get to about 250 mph. I plan to try a few other types of balloons as I think the thicker mylar may be slowing me down. Thanks for the idea! I really enjoyed the videos!
Nice to hear that you went ahead and tried it, I started with a 4 foot tube, went to 6 foot and finally 8 foot, speed increased with each change, something else to consider
@@YeanyScience ahh thanks I will give that a go.
That was amazing, I never heard of Vacuum Cannon before,
and now I think I know why cannons have a long tube (called barrel I think).
can't wait for part 2
Thanks
Terrific video, I have one of these in my office! Why doesn’t the 126 inch barrel have more velocity than the 108 inch?
Friction of the barrel. Because the barrel is straight, cut if refilled inside it would made a difference.
Noticed at the 12:12 mark when the combined vacuum and compressed air cannon fires you can see some sort of oscillation at the end of the barrel where it appears as if the gasses were attempting to equalize by rapidly flowing in then out then into the barrel end. I hope we get an explanation for that in part 2.
Good eye resiggy13, I have some better views of it in part 2
the more barrel you add to the compressed air cannon the more air the ball has to push out of the way, correct ?
I was gonna comment that you should vacuum tube the the barrel of the pressure cannon but you granted my wish! Also, another reason bit might slower is due to the need to accelerate air already in the barrel of the pressure cannon. With vacuum cannon you have no such resistance.
The most interesting would be to see what materials and weight will get the furthest !
And how this is calculated !
A projectile hole is always the same shape. Can you tell us anything about that Brucey? Whether it's an airgun through glass or a ball through a window always the same keyhole looking shape. I even once saw a pigeon fly into and crash through a window and the hole was the same shape. A keyhole looking shape....
You need some PLC's for the valve on your compressed air cannon. I know its just for demonstration but lets crank this baby up to 11!
I made the vacuum cannon and am having trouble getting the ball to exit. Mythbusters used regular packing tape to seal the ends, so I am as well, but the ping pong ball only exits every 3 or so shots. Other times it seems to hit a cushion of air and stop before the end. The ball is almost an exact fit for the pipe, so not much air is getting around, but I still can't get anywhere near the speeds in this video, and that's if it fires out at all.
Excellent video again
In the pressure cannon, the air in front (target side) of the ball must be accelerated in order to get out of the way of the ball. Air is heavy. The air inside an ordinary refrigerator weighs about 1 kg or 2 lbs. The longer the barrel, the more air must be accelerated so that the ball gets a smaller proportion of the total energy.
I imagine the compressed air cannon would benefit from a sort of scupper valve once the barrel length gets long enough. I would rework that ball valve so it can easily snap open, or exchange it for a fast acting butterfly valve.
Agree! In the video we can see the valve still opening after the ball hitted the can. If the valve could be opened a little bit faster, all that pressure could be released more faster. @Bruce you could think on a way to open that valve more faster.
I remember this on Mythbusters :)
Would a better sized projectile perform better? Something closer to the ID of the pipe to create a better seal?
I'm halfway through making part two and keep getting more ideas, this may have to go into 3 parts with that in mind
Bruce Yeany Check out Night Hawk In Light’s channel. He made a few really nice vacuum cannons.
By the way, your making me contemplate switching from teaching Special Ed to teaching science/physics. lol!
So theoretically, the max velocity of the vac pump would be the speed of sound ?
I don't remember the formula now, but, theoretically, the maximum velocity of the air filling a tube with barometric pressure 0 should be equal to light velocity. The barrel in this video don't have barometric pressure equal to 0, and have a lot of gaps to do it workable, and there is the ball's inertia.. it is very hard to calculate the theoretically maximum speed of the ball.
Well done
Awesome!!
I've seen both combined.results where a wee bit on the stout side
you should combine both of the canons by trasphering all the air from the barrel into a airtank behind a valve to add even more pressure difference between the ball
Bruce, I'm joining your team when the apocalypse happens.
"Honey, Im going back to the store for beer... i mean science"
I demonstrated a vacuum cannon at work once. Just the noise from the implosion was enough to make people jump out of their seats.
I wonder if you could run them in tandem to get even faster balls.
Attach the vacuum cannon on the tip of the air cannon so you can have lots of pressure in the back and no resistance in the front. :)
I’m sorry, you just did that in your new video! That’s awesome 👏🏼
Very cool 👍
Most entertaining!
What happen if we combined both vacuum and the compress air cannon?
As in the tube or barrel be in vacuum state where there is less air resistance for the ping pong ball to travel through and the compressed air providing extra thrust to propel it.. just connect the two cannon together which you would only need to cap the exit end of the barrel while the inlet side would be sealed with the compress air mechanism as shown in the video
Hi Shafiq, stayed tuned, I am working on part two now and have gotten some impressive results from the combination
Hi another great video
thanks! I had fun making it, even more fun with part 2
make a hole in the ball and fill it with sand...this will give some mass so it can reach crazy speeds and distances
in a later video I fill the balls with water, makes quite a difference
In the UK I suspect you could fill them with lead shot ... and commit an offense under the Firearms Act! 🙂
Awesome
Cool
Sir there is a you tube channel called Smarter everyday. He does altra slow motion and is also holds degree in aerospace engineering. I think he will be glad to film it for us. Meanwhile can you please tell us some home science projects during covid lockdown. Thanks and stay safe.
I've sent messages to his channel and a few others but have not gotten a response
briliant as always. thanks for the vid.
You know what's really funny I just got done making my own 2-meter long ping pong vacuum device as well
You are missing the upper level where the compressed air cannon is coupled to the vacuum cannon
Legend!
Imagine combining both...
Physics girl was able to barely measure the output velocity of the vaccum cannon, allowing us to combine it with your video to compare it....
But the one thing I find interesting is that a certified physicist did not think of speed stops while a science teacher did, allowing for better scientific results.
And that a can crushes while a tennis ball absorbs the hit so well.
stayed tuned for part 2 next week, I will have some on it where the two canons are combined
Hmm. An interesting concept to use on large scale weapons. A vacuum sealed barrel.
I wonder if that has ever been tried
@@YeanyScience It would be a sizable bit of engineering to accomplish. But I'm sure it could be done. Although quite expensive to make the barrel a vacuum chamber.
I wish that I had the time to build this for my students
Wat would happen if i put my hand in front
So do rockets work in the so called infinite vacuum of space, with such thin walled aircraft as we were told?
Uncle Schickelgrubber What’s wrong with thin walled spacecraft?
Was just 5psi inside the Apollo cabin after all.
FYI a plastic soda bottle can hold way over 100 psi.
And calling infinite vacuum is like saying infinite black. No such thing.
3:45 Dear Bruce, I am from Germany and know none of these units even thou I studied computer science here and speak several languages. Please also add metric units to your videos since most people on the planet are used to them. :-)
At the very end of the video, watch the end of the tube. You can see it “breathing” as the pressure tries to equalize with the atmosphere.
If we put a plane figure at the end of the tube, can it make a sonic boom ? 🤔
Very nice, but don't waste food it is very precious.
Shoot the ball with the pressure cannon through the vacuum cannon.
Are those ping pong balls nitrocellulose? Don't just throw away the scraps. :)
10:23 That's alot of damage
just wait til part 2
12:08 air seems to 'bounce' in and out of the barrel...?!
Yes, you can see it much better in the videos in part two, I'm still working on it and am exploring that a bit more
Incrível
I did a thing and physics girl:
"I've seen this before"
I didn't see her's yet but stay tuned for part two, it's going to get a lot more interesting
@@YeanyScience if interested this are the two videos:
ruclips.net/video/rk-6wHimbUs/видео.html
ruclips.net/video/bAKqzAzfXKQ/видео.html
Hi! I’m the ping-pong police 🚔 and I say you cannot do that to our balls
"ONLY 100 ft." :)
NightHawkInLight has an excellent series of videos exploring both vacuum and air cannons. It's worth checking out his stuff if this interests you.