I don't see any reason why it wouldn't.... all particles have different densities. unless rubber isn't dense enough to block the impossible zero density of outer-space. 0 is abstract not concrete. I would probably just make my suction cup out of metal and use a dyson vacuum to power it. lol
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NO! A suction cup is held in place by the air OUTSIDE the cup pushing it against the surface. No air in space. No air, no push, no workee.
I think so but I'm not sure
On a squid, the inside surfaces of the arms and tentacles are lined with hundreds of sub-spherical suction cups, Each is mounted on a stalk. Each arm and tentacle is divided into three regions: carpus, manus, and dactylus. The carpus has a dense cluster of cups, in six or seven irregular, transverse rows. The manus is broader, close to the end of the arm, and has enlarged suckers in two medial rows. The dactylus is the tip.
a styrofoam cup. i tried it on my science project
75 liters is 317 cups.
5 Cups
Vacuum cleaners are a good example of suction cups.
Suction cups stick to surfaces due to the lack of air pressure between the cup and the surface, creating a vacuum seal that adheres it into place. The negative pressure inside the cup holds it firmly against the surface, creating suction and allowing it to stick.
Because the sides of the suction cups seals air out. The reason anything moves is because there is a substance to replace the area where the object was before it moved. When the air is sealed out, nothing can come to replace the suction cups' space, therefore they do not move, thus not coming apart.
Suction cups work by creating a vacuum between the cup and the surface they are applied to. When the air from inside the cup is evacuated, the outside air pressure pushes the cup against the surface, creating a strong grip. This creates a seal that maintains the vacuum and allows the suction cup to adhere to the surface.
Suction cups work by creating a vacuum between the cup and a surface, which creates a strong grip. Their primary function is to adhere to smooth surfaces and provide temporary support or attachment.
Suction cups work by creating a vacuum seal between the cup and the smooth surface, which creates a strong grip. The air inside the cup is removed, causing the pressure inside the cup to be lower than the pressure outside, which holds the cup in place. This makes them effective for attaching objects to smooth surfaces because the vacuum seal creates a strong bond that can support the weight of the object.
They don't have suction cups they have tube feet
they all have suction cups. There are eight tentacles and two arms(they all have suction cups). Hope this helps!
Suction cups adhere best to smooth, non-porous surfaces such as glass, tile, metal, or plastic. These surfaces provide a tight seal for the suction cup to create a vacuum and stick securely. Rough or porous surfaces may not allow for a proper seal and may cause the suction cup to lose its grip.
suction cups are made by a soft rubber that is in penitrable to air
Suction works by creating a vacuum that causes air pressure to decrease within a closed space. This decrease in pressure causes the surrounding air or fluid to push into the lower pressure area, pulling objects towards it. This phenomenon is commonly used in devices like vacuum cleaners and suction cups.
Types of suction items are suction cups, suction hooks, and suction hoses.