The concentration increases. Eventually, all of the water will evaporate leaving dry baking soda behind.
Nothing
When salt, baking soda, and water are mixed together, it creates a basic solution. The baking soda (sodium bicarbonate) and water react to produce sodium hydroxide, which is a strong base. The salt (sodium chloride) remains in the solution but does not participate in the reaction.
Table salt is created when they mix
The vapor pressure of water decreases when mixed with sodium chloride. This is because the presence of sodium chloride particles in the water lowers the vapor pressure of the solution compared to pure water at the same temperature.
This is sodium chloride - NaCl.
When solid sodium chloride is mixed with water, it dissolves to form a solution of sodium and chloride ions. This process is called dissociation. The salt crystals break down into their individual ions, which are then surrounded by water molecules due to their polarity.
When sodium chloride is mixed with gold, there will be no chemical reaction as sodium chloride is a stable compound and gold is an inert metal. The two substances will simply mix together physically and can be separated again by physical means.
sh*t goes down...
When sodium chloride is mixed with water, it forms a salt solution. The sodium chloride dissociates into sodium cations and chloride anions in the water, creating a homogenous mixture.
Nothing at all. The sodium is fully oxidised in sodium chloride and chlorine gas has no effect. +++ "... fully oxidised..." Really? There is no oxygen in the compound, which is simply NaCl.
When sodium chloride and bromine water are mixed, a red-brown color will develop due to the reaction between bromine and chloride ions. This reaction forms bromide ions and an aqueous solution of sodium bromide.
Sodium can be mixed with other metals, nonmetals, and compounds to create different combinations such as sodium chloride (table salt), sodium hydroxide (lye), and sodium bicarbonate (baking soda). It is highly reactive and can form various compounds when mixed with appropriate partners.