A bottle cap is an inclined plane. I am not sure exactly why.
Bottle caps are about 2 cm in diameter.
A screw has external threads, so methinks the screw-top BOTTLE is really the screw, and the cap a mere receptacle. Yes. And a screw is really a modified wedge or incline.
Circumference = 2*pi*r r(radius) * 2 = diameter So. assuming the bottle is fairly a circle, measure across the bottom to get the diameter and then divide that in half for the radius and use the circumference formula. Of course a bottle is not quite a perfect circle everywhere and you might need calculus to get a proper circumference. I am thinking vector calculus.
Then you would have an upside down liter bottle. Hopefully the cap is on because then you would just have a mess...good thing it's just water
A standard bottle cap typically has a diameter of around 26-28 millimeters.
About six inches
Oh, dude, the diameter of a 2-liter bottle cap is typically around 28-33 millimeters. But like, who really measures a bottle cap, am I right? Just grab a ruler and give it a quick check if you're that curious.
a bottle cap is on the top of a bottle, the size of the bottle is what determines the size of the cap. psypocalipse out.
To put a bottle cap into a bottle, simply place the cap on top of the bottle opening and press firmly until it snaps into place. The cap should securely close the bottle to prevent any liquid from spilling out.
It depends on whether it is a plastic cap - as in a bottle of soft drink - or a metal cap - as in a beer bottle.
[1] The number 24-410 matches the size of the bottle cap to the size of the bottle's neck opening. That opening tends to measure .310. [2] And the bottle's holding capacity tends to range from ml [69-500] to oz [8-16].
Oh, dude, the diameter of a Gatorade bottle cap is about 1 inch. So, like, if you're ever in a situation where you need to measure it for some reason, now you know. But seriously, who measures bottle caps? Just grab a Gatorade and enjoy the drink!
A bottle cap is an inclined plane. I am not sure exactly why.
When you squeeze a cap bottle, the pressure inside increases, which can cause the contents to shoot out when the cap is removed. This is due to the build-up of pressure as you compress the bottle.
The load in a bottle opener is the resistance provided by the bottle cap when you try to open it. It is the force required to overcome the seal and remove the cap from the bottle.
A bottle cap floats because it is less dense than water. The air trapped inside the bottle cap provides buoyancy, causing it to float on the surface of the water.