without better grammar, I cannot determine exactly what is the question....
Industrially it's quite simple - steel cans are magnetic while aluminum cans aren't.
Cast iron, aluminum, phosphor-bronze, spring steel, mild steel etc.
If I had to choose the best insulator out of steel wool, aluminum foil, cotton and bubble wrap, I would choose the aluminum foil.
A. An aluminum wire carrying current B. An electromagnet C. An iron horseshoeA. A copper wire carrying current B. An iron horseshoe D. A steel paper clip
Aluminum is not generally galvanized as the zinc would not be readily sacrificial for aluminum. There are steel products which derive rust resistance from a coating of aluminum and zinc alloy. Properly maintained, they will be rust free for 20 years or longer.
By adding water
You can use a large magnet. Aluminum isn't magnetic, but steel is... Try that out. You should write A for Aluminum and S for steel on the cans so you don't get mixed up.
it wouldn't be magnet to a aluminum nail because the aluminum is not a way of magnet and a steel nail would because steel is a way of magnet.
Paper, glass, plastic, aluminum, steel, precious metals, and cardboard.
sure, by using tictac cans and aluminium or silver paper
aluminum pot
No, paper clips are usually made from steel wire or plastic.
sex
Plastic, Aluminum, Paper, Glass, Steel
Steel typically has higher density compared to aluminum. Steel has a density of around 7.85 g/cm3, while aluminum has a density of about 2.70 g/cm3. This means that steel is heavier for the same volume compared to aluminum.
If the wheels are steel, a magnet will stick. If aluminum, it will not.If the wheels are steel, a magnet will stick. If aluminum, it will not.
Since steel cans are made of iron, they can usually be attracted magnetically Since Aluminum is never magnetic, one method of separation would involve using a magnet. (An exception is "stainless steel" which is nonmagnetic, but it is much more expensive, and few if any cans are made from that.) If magnetic separation is not possible, then another method would be to somehow separate by density. Aluminum cans, being much lighter than steel cans, and will tend to rise to the top, when tumbled repeatedly. There are other properties, such as electrical conductivity, which differ between steel and aluminum, and these (in principle) could be exploited for separation, but using magnets (to attract the steel and not the aluminum) would seem to be the simplest and cheapest method. If the cans are crushed and melted into a liquid (which also removes residual liquid and other contents), ore perhaps even heated into a gas, then the different melting points of Fe and Al could be used to separate the metals. A centrifuge might be used to separate materials of different densities (as is done, say, for enriching Uranium by removing the denser isotope, U238); however, that is probably not a cost-effective method for separating soda cans, and I would go with magnets instead!