Wow. That was amazing. First of all, it is cool water droplets can be controlled down to a 1000th of a second. Also, when the falling water droplet hit the one that had already hit the water, it created an umbrella-like shape from the first droplet coming up and the water spraying to the side from the collision. At the end I thought it was nice how they said that in real time, the video wold have only been .6 seconds, because that gives you a good idea of how slowed down everything is.
That was so amazingly cool! It's great how they can have that slow of a camera. You would never think that when you pour food coloring in liquid, what happens in the video is really going on. I took a look at another one of their videos and it was really cool too. I think one of these cameras would be a great investment in the Science Lab.
This was very fascinating. I think it is astounding that we have the technology to create a camera that captures detail that the human eye would never be able to see on its own. First of all, it was magnified in a close-up, and with the camera shooting 5000fps, we were able to see the behavior of the milk and the food coloring as they collided with each other in minute detail. I mostly liked when the milk and food coloring, now collided, would rise, only to be hit by another droplet, making it look like a mushroom.
Wow! That was amazing. It just shows you how much technology we have. That machine that they had controlled the droplets down to 1000th of a second. And it is amazing how that camera can slow that down so much. The shape it made was amazing. When the first droplet hit, it created a hole in the milk. Then, a little pillar of milk shot up and the second droplet hit that, causing the top of the pillar to go in every direction like a hat over the pillar. Then the pillar went away. I can't believe that in real time, all of that footage actually would have happened in 0.6 seconds vs. 2 minutes. That just shows you how amazingly slowed down that footage was.
This is really cool because it was at 5000 fps which is about 200 times slower than the human eye can see and about 150 time slower than your normal digital camera can handle. But it is sort of spooky that the droplet kind of detiorated upon contatct. Joe the camera costs from fifty and one hundred and fifty* dollars and it can get up to 10,750 FPS at 640 x 480. Boy I want one of those cameras if I had the money.
This was an enthralling sight. The fact that there is a camera in this world that can shoot at 5000 frames per second is simply astounding. And on top of that there is a machine that can control water droplets to a thousandth of a second. The coolest part is that they timed it so that when the first droplet bounced back up, there was a second droplet to collide with the first one. Right after that, an umbrella was formed from the collision of the 1st and 2nd droplets. Using food color and milk was an excellent way to clear it up. If you look closely, you can see every droplet that was created from the collision. Imagine droplets from the collision of the collision of the collision of the first and the 2nd droplet. Joe said that this would be a great investment for the science lab. That makes no sense at all. First of all, we never would need it. 2nd of all, it costs from 50,000 to a 150,000 dollars. There is way more to this, but this is enough evidence to show you that it is a completely bad investment. This is information is easily found if you were to just search it up on a database or Google.
This was an very cool and interesting video! It was cool because when the second droplet hit the first droplet, it made a mushroom/umbrella like figure. This video was interesting because in real life it took only point six seconds for that to happen.
5000 fps! Wow! Technology has really advanced! I've seen a video like this in Room 4 or 5, but it was only in 2000 fps or something around that. With that slow of a camera, you could really see everything happening. The water bouncing, the second droplet colliding and forming a mushroom shape, the food coloring spreading, and all those tiny details that the naked eye couldn't see. I also thought how cool it was that they got the second droplet perfectly in sync with the first one so that it would hit the water spike at the right moment.
Wow, but I wonder why the liquid was white, maybe to outline the droplet better. I liked the last one, where the top of the spire of liquid split off from the rest, and the top was hit by another sphere, and they exploded. I can't see what this has to do with science, though.
I love super slow motion videos, because you can see all of these cool things. If we could see things like that with our naked eye, our lives would be so interesting. I guess we'll have to stick with regular motion.
I wish we had a blog in every class, then we could see so many interesting concepts! This one alone could work for science, math, and even technology. It was cool how the white liquid collided with the coloring, making it multi-colored. This reminds me of our milk & food coloring experiment in room five.
Wow! This was really cool! The detail of the footage was incredible and the fact that a camera can get that kind of a video is amazing. I can't believe that it only takes .6 seconds in real life. It looked really cool when the water droplet that was still coming down hit the droplet that was coming up, so it formed sort of an umbrella-shaped figure thing. I agree with Luca, this also reminds me of the milk and food coloring experiment that we did in room five. This video was really cool!
This is so cool. It was cool when the water formed that umbrella shape. This just shows how much technology has advanced. It was such a detailed video. Slow motions videos always allow you to see what's really happening.
15 comments:
Wow. That was amazing. First of all, it is cool water droplets can be controlled down to a 1000th of a second. Also, when the falling water droplet hit the one that had already hit the water, it created an umbrella-like shape from the first droplet coming up and the water spraying to the side from the collision. At the end I thought it was nice how they said that in real time, the video wold have only been .6 seconds, because that gives you a good idea of how slowed down everything is.
That was so amazingly cool! It's great how they can have that slow of a camera. You would never think that when you pour food coloring in liquid, what happens in the video is really going on. I took a look at another one of their videos and it was really cool too. I think one of these cameras would be a great investment in the Science Lab.
This was very fascinating. I think it is astounding that we have the technology to create a camera that captures detail that the human eye would never be able to see on its own. First of all, it was magnified in a close-up, and with the camera shooting 5000fps, we were able to see the behavior of the milk and the food coloring as they collided with each other in minute detail. I mostly liked when the milk and food coloring, now collided, would rise, only to be hit by another droplet, making it look like a mushroom.
Wow! That was amazing. It just shows you how much technology we have. That machine that they had controlled the droplets down to 1000th of a second. And it is amazing how that camera can slow that down so much. The shape it made was amazing. When the first droplet hit, it created a hole in the milk. Then, a little pillar of milk shot up and the second droplet hit that, causing the top of the pillar to go in every direction like a hat over the pillar. Then the pillar went away. I can't believe that in real time, all of that footage actually would have happened in 0.6 seconds vs. 2 minutes. That just shows you how amazingly slowed down that footage was.
This is really cool because it was at 5000 fps which is about 200 times slower than the human eye can see and about 150 time slower than your normal digital camera can handle. But it is sort of spooky that the droplet kind of detiorated upon contatct. Joe the camera costs from fifty and one hundred and fifty* dollars and it can get up to 10,750 FPS at 640 x 480. Boy I want one of those cameras if I had the money.
*thousand
This was an enthralling sight. The fact that there is a camera in this world that can shoot at 5000 frames per second is simply astounding. And on top of that there is a machine that can control water droplets to a thousandth of a second. The coolest part is that they timed it so that when the first droplet bounced back up, there was a second droplet to collide with the first one. Right after that, an umbrella was formed from the collision of the 1st and 2nd droplets. Using food color and milk was an excellent way to clear it up. If you look closely, you can see every droplet that was created from the collision. Imagine droplets from the collision of the collision of the collision of the first and the 2nd droplet. Joe said that this would be a great investment for the science lab. That makes no sense at all. First of all, we never would need it. 2nd of all, it costs from 50,000 to a 150,000 dollars. There is way more to this, but this is enough evidence to show you that it is a completely bad investment. This is information is easily found if you were to just search it up on a database or Google.
This was an very cool and interesting video! It was cool because when the second droplet hit the first droplet, it made a mushroom/umbrella like figure. This video was interesting because in real life it took only point six seconds for that to happen.
5000 fps! Wow! Technology has really advanced! I've seen a video like this in Room 4 or 5, but it was only in 2000 fps or something around that. With that slow of a camera, you could really see everything happening. The water bouncing, the second droplet colliding and forming a mushroom shape, the food coloring spreading, and all those tiny details that the naked eye couldn't see. I also thought how cool it was that they got the second droplet perfectly in sync with the first one so that it would hit the water spike at the right moment.
Wow, but I wonder why the liquid was white, maybe to outline the droplet better. I liked the last one, where the top of the spire of liquid split off from the rest, and the top was hit by another sphere, and they exploded. I can't see what this has to do with science, though.
I love super slow motion videos, because you can see all of these cool things. If we could see things like that with our naked eye, our lives would be so interesting. I guess we'll have to stick with regular motion.
I've seen this a lot of times before, with some much better video clips. I think that that is really cool and the colored water made a lot of effect.
I wish we had a blog in every class, then we could see so many interesting concepts! This one alone could work for science, math, and even technology. It was cool how the white liquid collided with the coloring, making it multi-colored. This reminds me of our milk & food coloring experiment in room five.
Wow! This was really cool! The detail of the footage was incredible and the fact that a camera can get that kind of a video is amazing. I can't believe that it only takes .6 seconds in real life. It looked really cool when the water droplet that was still coming down hit the droplet that was coming up, so it formed sort of an umbrella-shaped figure thing. I agree with Luca, this also reminds me of the milk and food coloring experiment that we did in room five. This video was really cool!
It's so impressive that today we have the technology to film this water droplet at this slow a rate. It looks so cool close up!
This is so cool. It was cool when the water formed that umbrella shape. This just shows how much technology has advanced. It was such a detailed video. Slow motions videos always allow you to see what's really happening.
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