Metal
Table Salt is Sodium Chloride, which reacts with a flame and turns it yellow.
salt and amonia
To make a purple flame you need to have Potassium Chloride a.k.a. water softner salt and then you add a little bit of the salt stuff to the flame. Then you wait and your flame turns purple!
Hcl liberates the ions of the salt which enables it to impart colour to flame easily.
A.o.A it is the demand of flame test that salt should be easily vapourised as metalic chloride for this purpose we wet the given salt with acid (HCl) so that it change into chloride but copper cannot remove hydrogen(As Au,Ag,Pt) from acid so cannot changed into chloride and not used in flame test. but if there is chloride salt of copper it can be easily used for flame test with-out use of acid.....
The color of the flame depends on the metal from the salt.
Sodium chloride (salt) gives a yellow-orange flame result.
The yellow color of the flame is due only to sodium.
No, sodium chloride is a very stable compound
greenish blue due to the chemical reaction from the c02 from the flame and the potasiam iode in the salt.
if you get fire hot anoth it will turn blue but if have a drift wood fire the salt will turn it blue or you could just add salt Alli lee
There are two products that will give flame a green color. Boric acid and copper sulfate. Copper sulfate is the salt, however.
Table Salt is Sodium Chloride, which reacts with a flame and turns it yellow.
p and d block elements with colour
This phenomenon doesn't exist or you think to a flame test.
When sodium is subjected to a flame test, it burns a bright yellow. This yellow flame can be brighter than the lilac flame color of the potassium, which makes it more difficult to distinguish between the sodium and potassium.
Barium chloride, or any other barium salt, should burn with a green flame. When a barium salt is burned, the thermal energy is transferred to the outer electrons of the barium ions. They gain enough energy to excite them to a higher energy level. They then drop back to their ground state, releasing energy. This energy corresponds to a wavelength of light, which is emitted from the ion. This wavelength corresponds to green light, hence the green flame observed.