The first and most important priority I'm going to show you five science experiments that you can do using a Pepsi can today. Take, for example, this. Before I do anything else, I'm going to get a can and fill it with a tiny amount of water.
Not too much, though. That's all there is to it. Then I'm going to put it on the stove to cook. Do not attempt this at home, children. Make certain that an adult is present to supervise you. Then we'll bring the water in the can to a boil so we can use it.
Just a smidgeon of it. When the steam begins to emerge from the can, the can should be considered ready. OK. Nothing is going to happen. What's more, you know what? Just a little longer on the stovetop would suffice. As you can see, it did not implode since the temperature was not high enough.
Okay, that's it. There's nothing more to say. Wow, that's really cool. Let's get this party started. Wow, it was one of the greatest ones. Take a look at how much it implodes. That is fantastic. To the touch, it's still quite warm.
This has the potential to be quite hot once more. I really like this experiment. It's never gotten old. We only need a cup for this can experiment, so get creative! We're going to put it down and blow it into the trash can sideways like this, and we'll see what happens.
No way in hell. How did it get out of the building? I didn't even get close to blowing down. I've just had a nervous breakdown down here. No way in hell.
What makes it feasible for this to be true? Look. I'm only blowing a small amount into the cup, or even under it if you will. [Has the Ability to Bounce] Oh my gosh, how cool is that? This experiment is fantastic since it can be performed by anyone, including children.
To make it even more difficult, simply take another cup and blow it into it so that it lands in this area. Let's give it a shot. Yes, it is possible that it will be significantly more difficult than you anticipate.
Oh my goodness, we're so near. Yes, we were successful! [SWOOSH] We're going to use the bottom of the can for our science project, which is quite cool. We can really create a vacuum in there and use it as a suction cup to hold things together.
Let's put that into practice. The likelihood of getting it caught on your hand increases when you put it down and then turn it is higher. [Can knock over the table] As you can see, it became stuck for a little period of time.
BOOM. Do you see what I mean? We were able to get the vacuum, but it became stuck. But, instead of using the hand, we're going to make something a little more interesting. And, once again, you may do it with the kids, who will have a great time.
We'll simply grasp it from the side of the head, which will be a simple process in itself. Furthermore, if you have a clean-shaven bald head, you can perform the procedure with your bald head. And if you happen to... [Bang] Woo! Nice.
We produced a vacuum in there, which is how it became sucked up and clung to your forehead. Isn't it amazing how amazing it is? Following our practice with an empty can, we should obtain a can with half of the drink remaining within it.
And once again, we're going to make it ingrained in your brain. Make a vacuum in the space. Consequently, it becomes a suction cup. BOOM. Afterwards, we're going to have a drink. AHH! I've gone lost.
And then we're going to pour it into the glass from the top of our heads. What a fantastic opportunity! That's a really cool and entertaining science experiment. [SWOOSH!] Take a look at this.
We can use a can to balance on the rim of a jar in this manner. Isn't it incredible? Wow. Moreover, there is no adhesive or anything else involved; only the balancing act. And, as you can see, it's simple to fall off, so there's no glue.
Let's have a look at how to do it. To do this, I simply measured out a hundred millilitres of water or Coca Cola and placed it back into the can. A few hundred millilitres is required, or else it may not function properly.
And then all I'm going to do is try to strike a balance. Just a little more slowly. Be extremely patient. And then there was a BOOM. Wow. Take a look at that. It's a delicate balancing act. Don't you think it appears to be impossible? As you can see, it is only perched on the rim of the glass.
There will be no gimmicks. There is no glue. There is absolutely nothing. As for shaking the table, [fist pound] BOOM is what I'm going to do. It is sucked in. Awesome. That experiment is one of my favourites.
[SWOOSH!] So I brought Diet Coke and Coca-Cola to the party. I'm going to submerge them in water like that and then let it all go to hell. Why did Coca-Cola sink whereas Diet Coca-Cola did not sink? As you can see, it just bubbles up quite readily.
Likewise, with Sprite and Sprite Zero, the same thing will happen. As you can see, Sprite sinks almost immediately, however Sprite Zero, the diet Sprite, does not sink.
It's going to float to the top. So, what is the cause of this occurrence? There is a straightforward solution.
Sugar content in Coke is 39 grammes, but the sugar content in diet drinks is zero grammes. It doesn't matter that the drinks are the same size, and you may assume that they will weigh the same amount because they are both liquids.
However, due to the fact that this beverage has significantly more sugar than this one, it is significantly heavier than this one. Quite remarkable, don't you think?
Thankyou
Post a Comment
Useful or Not comment us