acid streaic +k carbonate
When stearic acid is added to potassium hydroxide (KOH), it undergoes saponification to form potassium stearate and water. This reaction is commonly used in soap making processes. The reaction can be represented by the chemical equation: C17H35COOH + KOH -> C17H35COOK + H2O
Sodium stearate is commonly used in cosmetics and personal care products as an emulsifier and thickening agent. It is also used in the manufacturing of soaps, detergents, and lubricants due to its ability to reduce surface tension and enhance cleaning properties. Additionally, it is used in the food industry as an emulsifying agent and in the pharmaceutical industry as a binder for tablets.
The chemical symbol for sodium is Na, while the chemical formula for stearate is C18H35O2-. Therefore, the chemical symbol for sodium stearate is NaC18H35O2.
The molecular size of aluminum stearate can vary depending on its structure and the number of aluminum and stearate units present in the molecule. It is a salt formed by the reaction of stearic acid and aluminum hydroxide, typically resulting in a larger molecular size compared to the individual components.
To remove sodium chloride from calcium stearate, you can dissolve the mixture in water. Sodium chloride is water-soluble, so it will dissolve in the water while calcium stearate remains insoluble. By filtering the solution, you can separate the sodium chloride from the calcium stearate.
When stearic acid is added to potassium hydroxide (KOH), it undergoes saponification to form potassium stearate and water. This reaction is commonly used in soap making processes. The reaction can be represented by the chemical equation: C17H35COOH + KOH -> C17H35COOK + H2O
Sodium stearate is commonly used in cosmetics and personal care products as an emulsifier and thickening agent. It is also used in the manufacturing of soaps, detergents, and lubricants due to its ability to reduce surface tension and enhance cleaning properties. Additionally, it is used in the food industry as an emulsifying agent and in the pharmaceutical industry as a binder for tablets.
Scott Pilgrim
Soaps are usually salts of long chain fatty acids with Sodium or Potassium ion and are soluble in water but Calcium stearate is very slightly soluble in water so can not be used as soap so it is better to consider it as a salt only.
Soaps are usually salts of long chain fatty acids with Sodium or Potassium ion and are soluble in water but Calcium stearate is very slightly soluble in water so can not be used as soap so it is better to consider it as a salt only.
Potassium hydroxide can be used as a substitute for sodium hydroxide in a number of applications. It can be used in the manufacture of soap and biodiesel, as an electrolyte in batteries, and as a precursor to other potassium compounds.
Yes, manganese stearate is an ionic compound. It consists of manganese cations and stearate anions held together by ionic bonds.
The chemical symbol for sodium is Na, while the chemical formula for stearate is C18H35O2-. Therefore, the chemical symbol for sodium stearate is NaC18H35O2.
The molecular size of aluminum stearate can vary depending on its structure and the number of aluminum and stearate units present in the molecule. It is a salt formed by the reaction of stearic acid and aluminum hydroxide, typically resulting in a larger molecular size compared to the individual components.
In hard water we find Calcium and Magnesium ions. These react with the Sodium stearate (soap) to form Calcium and magnesium stearate and Na+ ions Sodium stearate+ Ca2+ +Mg2+ --> Calcium stearate + Magnesium stearate + Na+ ions
The name of the compound with the formula KClO3 is "potassium chlorate".
The ratio of Ca2+ ions to stearate anions depends on the specific compound or salt being referred to. For example, in calcium stearate (Ca(C17H35COO)2), the ratio is 1:2, with one Ca2+ ion for every two stearate anions. However, in other compounds, such as calcium di(stearate) (Ca(C17H35COO)2), the ratio may vary.