Some brain teaser for the scientific-minded

Harry Bloomfield said:
Providing the adhesive is applied to the entire surface, it will scale up just fine. The only issue is that if an edge, begins to peel, that can drag the lot down, and so edge support might be needed, until the adhesive drys.

Compare it to wallpapering a ceiling...

A small piece of wallpaper will easily stick to a ceiling, a full length will be more difficult, because the ends will tend to unstick, and once the ends unstick, the lot comes back down.
Click to expand...
Yep - size matters:
link.springer.com

Pressure-Sensitive Adhesives (PSAs)

The basic concepts, formulations, and test methods of pressure-sensitive adhesives are presented. The importance of interfacial interactions, viscous loss, and extensibility are stressed. The common rheological tests are described and the equivalence of deformation...
link.springer.com link.springer.com
 
Mottie said:
Did you not learn that in science lessons at school?

Click to expand...
I didn't expect that for pins. I know some spiders can walk on water.
The pin floats because the weight is not enough to break the surface tension. If you put 1000 pins next to each other, I would expect them to float as well as long the surface tension is the same. In reality I suppose the presence of 1000 pins will disturb the surface tension, which is why we don't see a Youtube video of 1000 pins floating.
 
Harry Bloomfield said:
Providing the adhesive is applied to the entire surface, it will scale up just fine. The only issue is that if an edge, begins to peel, that can drag the lot down, and so edge support might be needed, until the adhesive drys.

Compare it to wallpapering a ceiling...

A small piece of wallpaper will easily stick to a ceiling, a full length will be more difficult, because the ends will tend to unstick, and once the ends unstick, the lot comes back down.
Click to expand...
Who wallpapers a ceiling?

So the tile can be infinitely large (and heavy) and as long as the adhesive's strength is higher than the force of gravity per unit area, it will always hold?
 
MNW67 said:
So why do the ends unstick! Another science question. I have no idea.
Click to expand...

Two reasons..

1. the edges will have more inclination to curl, and push away from the ceiling.

2. an edge, has less supporting it - no support next to it, versus further towards the centre.
 
henry1 said:
I didn't expect that for pins. I know some spiders can walk on water.
The pin floats because the weight is not enough to break the surface tension. If you put 1000 pins next to each other, I would expect them to float as well as long the surface tension is the same. In reality I suppose the presence of 1000 pins will disturb the surface tension, which is why we don't see a Youtube video of 1000 pins floating.
Click to expand...

Greasing, oiling, or waxing the pins helps. Dip the pins in soapy water, first, and they will immediately sink in the plain water.
 
henry1 said:
If I have an adhesive that holds a 1 cm x 1 cm tile onto the ceiling, will the same adhesive hold a similar tile 2 m x 2 m onto the same ceiling? If not, why not?

Before you say it's heavier, consider that the adhesive is providing the same force per unit area for both tiles, and the force of gravity per unit area for both tiles is also the same...

I asked 2 different AIs this question. One said it was due to imperfections, as if there are no imperfections in the 1 cm x 1 cm tile scenario. The other AI in the end agreed with me because I was relentlessly harassing it!
Click to expand...

Yes
unless
the ceiling's not flat.
 
henry1 said:
In reality I suppose the presence of 1000 pins will disturb the surface tension, which is why we don't see a Youtube video of 1000 pins floating.
Click to expand...

It is a complex interaction of surface area and wetting angle. Things I barely remember. If all the pins are touching in one big mass then it will sink. But if there is a sufficient gap between each pin they will float.
 
MNW67 said:
It is a complex interaction of surface area and wetting angle. Things I barely remember. If all the pins are touching in one big mass then it will sink. But if there is a sufficient gap between each pin they will float.
Click to expand...

Is the correct answer! If you imagine the surface tension, as an elastic surface - the elastic will only support a certain weight, in an area, before it fails.
 
Surface tension creates a film on the water, the water molecules are attracted to each other. The pin has a greater mass than the displace water, if you dropped the pin in, it would sink, but place it carefully and it floats on the surface tension. The temperature of the water is relevant. It doesn't work with hot water.
 
motorbiking said:
The temperature of the water is relevant. It doesn't work with hot water.
Click to expand...

Hot water landing in the sink, from a tap, makes a very different noise to cold water landing in the sink, due to the surface tension. I make use of the change in noise, when doing the washing up - hot tap on, going to waste, until the noise changes, then swing the spout over the washing up bowl.

The lower surface tension of hot water, itself makes wetting the washing up easier.
 
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