A polar compound.
Without knowing the specific compound, it's impossible to determine its solubility in water. Generally, ionic compounds or polar molecules are soluble in water, while nonpolar compounds are insoluble. You would need to know the specific compound's chemical structure to predict its solubility in water accurately.
Mineral oil is insoluble in water due to its nonpolar nature, but it is soluble in tetrahydrofuran (THF) as they are both nonpolar compounds. Therefore, mineral oil would likely be soluble in a solution of water and tetrahydrofuran.
Some organic compounds can dissolve in water, while others do not. Solubility varies depending on the specific structure and properties of the organic compound. For example, simple organic molecules like alcohols and carboxylic acids tend to be soluble in water due to the presence of polar functional groups that can interact with water molecules through hydrogen bonding.
Arsenic is a solid metalloid that is not soluble in water. It can react with certain acids or salts to form soluble compounds, but arsenic itself does not dissolve like a typical substance would in water.
KOH (potassium hydroxide) is a strong base and is highly soluble in water due to the strong electrostatic interactions between the potassium and hydroxide ions with water molecules. Therefore, you would expect KOH to dissolve readily in water to form a clear solution with high conductivity.
Without knowing the specific compound, it's impossible to determine its solubility in water. Generally, ionic compounds or polar molecules are soluble in water, while nonpolar compounds are insoluble. You would need to know the specific compound's chemical structure to predict its solubility in water accurately.
Starch
Mineral oil is insoluble in water due to its nonpolar nature, but it is soluble in tetrahydrofuran (THF) as they are both nonpolar compounds. Therefore, mineral oil would likely be soluble in a solution of water and tetrahydrofuran.
Organic compounds have to be defined as best as possible to determine what is soluble in water. Organic compounds are molecules composed with carbons--pure hydrocarbons like octane would not be soluble in water. Organic compounds can also have electronegative molecules in it. Dichloroethane, methanol, ethanol, etc are soluble in water. However, most organic compounds will more likely have low solubility in water, since increasing the number of carbon molecules in any compound drastically reduces water solubility.
Some organic compounds can dissolve in water, while others do not. Solubility varies depending on the specific structure and properties of the organic compound. For example, simple organic molecules like alcohols and carboxylic acids tend to be soluble in water due to the presence of polar functional groups that can interact with water molecules through hydrogen bonding.
Arsenic is a solid metalloid that is not soluble in water. It can react with certain acids or salts to form soluble compounds, but arsenic itself does not dissolve like a typical substance would in water.
KOH (potassium hydroxide) is a strong base and is highly soluble in water due to the strong electrostatic interactions between the potassium and hydroxide ions with water molecules. Therefore, you would expect KOH to dissolve readily in water to form a clear solution with high conductivity.
Of its simple inorganic compounds, lead sulphate and lead chloride are insoluble in water, so would be in nitric acid, which is mostly water. Lead monoxide and lead carbonate are not soluble, but react with the acid so they appear soluble.
No, it is not. No, vitamin D is one of the oil-soluble vitamins, and it is not water soluble. The two forms [of several others having or potentially having vitamin D activity] that are normally found in mammals are vitamin D2 - ergocalciferol - and vitamin D3 - cholecalciferol. These compounds may be regarded as steroids in which the B ring has been ruptured. Steroids are formed from Cholesterols that are most definitely H2O non-soluble.
Potassium fluoride (KF) is soluble in water according to solubility rules because all compounds containing alkali metal cations (such as potassium) are soluble in water, and fluoride salts are also generally soluble. Therefore, potassium fluoride is soluble.
I would say backwards, mucin is soluble in water.
nitro