There are no metallic elements present in this compound, so no, it is not ionically bonded; it's covalently bonded.
CH3OH does not ionize because it is insoluble in water
The van't Hoff factor for CH3OH (methanol) is 1, since it does not dissociate into ions in solution.
nonelectrolyte.. Some people thought it is weak electrolyte but when i answered, it was wrong
MgBr2 will cause the bulb to glow brightly as it is an ionic compound and produces two ions per molecule . On the other hand, CH3OH is an organic compoound which is merely dissolved in water due to intermoleculer hydrogen bonding and is not a good electrolyte!
KOH (potassium hydroxide) is a better conductor than CH3OH (methanol) because KOH dissociates into ions more readily in solution due to its ionic nature, allowing for better conduction of electricity. Methanol does not dissociate into ions as effectively as KOH, leading to lower conductivity.
CH3OH does not ionize because it is insoluble in water
The van't Hoff factor for CH3OH (methanol) is 1, since it does not dissociate into ions in solution.
Among the liquids mentioned, H2O (water) is the best conductor of electricity. This is because water contains ions that allow for the flow of electric current. Methanol (CH3OH) and carbon tetrachloride (CCl4) are poor conductors of electricity because they do not dissociate into ions in the same way as water does.
nonelectrolyte.. Some people thought it is weak electrolyte but when i answered, it was wrong
MgBr2 will cause the bulb to glow brightly as it is an ionic compound and produces two ions per molecule . On the other hand, CH3OH is an organic compoound which is merely dissolved in water due to intermoleculer hydrogen bonding and is not a good electrolyte!
KOH (potassium hydroxide) is a better conductor than CH3OH (methanol) because KOH dissociates into ions more readily in solution due to its ionic nature, allowing for better conduction of electricity. Methanol does not dissociate into ions as effectively as KOH, leading to lower conductivity.
The answer is 9.6 grams.
There are two lone pairs of electrons on the oxygen atom in the Lewis structure of CH3OH.
No, CH3OH is not an element. It is a compound with the chemical formula CH3OH, which represents methanol, a type of alcohol.
Co + 2h2 -> ch3oh All letters capitals!
CH3OH is a Lewis base.
To prepare a 1.5 M solution of CH3OH in 150 mL, you need to calculate the moles required first. 1.5 moles/L * 0.15 L = 0.225 moles of CH3OH. Since the molar mass of CH3OH is 32 g/mol, you would need 7.2 grams of CH3OH to prepare the solution.