When a strong alkali is mixed with water, it will dissociate into ions, resulting in the formation of hydroxide ions. This process releases heat, known as heat of neutralization. Additionally, the pH of the solution will increase due to the high concentration of hydroxide ions.
When an acid is mixed with an alkali, a neutralization reaction occurs. This reaction results in the formation of water and a salt. The acidity of the acid decreases and the alkalinity of the alkali decreases as they react with each other.
When an alkali and an acid mix together, they undergo a neutralization reaction. During this reaction, the hydrogen ions from the acid react with the hydroxide ions from the alkali to form water and a salt.
When an alkali, such as sodium hydroxide, is mixed with oil, a process called saponification occurs. This reaction produces soap and glycerol. The alkali reacts with the oil's fatty acids to form soap molecules, which can then emulsify and help dissolve grease and dirt.
When hydrochloric acid is mixed with an alkali, such as sodium hydroxide, water and a salt are formed. There is no gas produced in this reaction.
the pH of the acid and the pH of the alkali basically cancel each other out. because an alkali\'s pH is high, around fourteen and an acid\'s is low, around 1, when these are added together, the solution becomes neutral, meaning it has a pH of around 7 and would not cause anyone any bodily harm, e.g. water is a neutral substance. In a lab environment water would be neutral, however water can also be acidic or alkalin. e.g. water in a fish tank must be monitored to maintain its pH level.
When lemon juice (which is acidic) is mixed with sodium hydroxide (a strong base), a neutralization reaction occurs, resulting in the formation of water and sodium citrate - a salt. This reaction will produce heat and can be exothermic. It is important to handle sodium hydroxide carefully as it is a caustic substance.
When alkali metals react with oxygen, they form metal oxides. This reaction is often highly exothermic and can produce heat and light. The resulting metal oxides produced will vary depending on the specific alkali metal involved.
When an acid is mixed with an alkali, a neutralization reaction occurs. This reaction results in the formation of water and a salt. The acidity of the acid decreases and the alkalinity of the alkali decreases as they react with each other.
They react by forming water and a salt which is either soluble thus ionised, or as insoluble precipitate.
When you put Marmite in water, it will dissolve and mix with the water to create a savory liquid that has a strong umami flavor. It can be used as a seasoning or broth for cooking.
The variable in the project of what happens when oil mixes with water could be the type of oil used, the temperature of the water, the ratio of oil to water, or the presence of an emulsifier. These variables can affect the emulsification process, the formation of microemulsions or macroemulsions, and the overall stability of the mixture.
When an alkali and an acid mix together, they undergo a neutralization reaction. During this reaction, the hydrogen ions from the acid react with the hydroxide ions from the alkali to form water and a salt.
the molecules are donated to water molecules. if a little of the acid remains after it is added to water, then it is a strong acid. if a lot remains, then it is a weak acid. same goes for bases.
Because the positive ions mix together to make them unstable
Because the positive ions mix together to make them unstable
You get sweet water.
When an alkali, such as sodium hydroxide, is mixed with oil, a process called saponification occurs. This reaction produces soap and glycerol. The alkali reacts with the oil's fatty acids to form soap molecules, which can then emulsify and help dissolve grease and dirt.