Yes, I saw a demonstration of this on a video once...
It is unlikely that tin would replace sodium in a reaction as sodium is a more reactive metal than tin. In a typical single displacement reaction, a more reactive metal will replace a less reactive metal in a compound. Therefore, sodium is more likely to replace tin in a reaction rather than the other way around.
Caesium is the 5th element in group I of the periodic table. It is an alkali metal, and they become more reactive as you go down the group from lithium to sodium to potassium etc. So we would expect that caesium is highly reactive, even more reactive than rubidium.
The reaction of bromine with sodium would be slower than the reaction of chlorine with sodium, as bromine is less reactive than chlorine. Both reactions would produce a salt (sodium bromide or sodium chloride) and release heat and gas (hydrogen gas in the case of chlorine).
Sodium is more reactive than aluminium no displacement reaction would be expected. The displacement reaction would be written as :- Al + 3NaCl= AlCl3+3Na)
You could use potassium, rubidium or caesium. However, there is no practical reason why you would do this. You'd have to do it in the melt, which would be hazardous, as all these metals react with water.
Sodium is a highly reactive metal and would react with moisture in the air or food, which could be dangerous. It would also tarnish and corrode quickly due to its reactivity. Therefore, sodium is not suitable for use in cutlery.
Sodium is actually quite reactive. It is a highly reactive metal that reacts vigorously with water to form sodium hydroxide and hydrogen gas. Sodium is stored under oil to prevent it from coming into contact with air or moisture, which would lead to rapid oxidation and reaction.
A reaction between fluorine and sodium would be highly energetic, more so than that of gasoline and oxygen. It would be either combustion or explosion depending upon how well it is controlled.
Potassium is the most reactive of the three metals (potassium, lithium, and sodium). It reacts vigorously with water, producing hydrogen gas and heat. Sodium is less reactive than potassium, while lithium is the least reactive among the three.
The reaction between water, phenolphthalein, gasoline, and sodium would result in a violent chemical reaction due to the highly reactive nature of sodium with water. The sodium would react vigorously with water, producing hydrogen gas and sodium hydroxide. This reaction could potentially ignite the gasoline in the presence of oxygen, leading to a fire or explosion. It is highly dangerous and should not be attempted.
CaO is a basic oxide that does not react with sodium hydroxide, which is also a base. Both substances have high pH levels and do not have reactive properties that would lead to a chemical reaction between them.
Francium is most reactive - the Pauling electronegativity is calculated to be 0,7.