There are no metallic elements present in this compound, so no, it is not ionically bonded; it's covalently bonded.
Methanol (CH3OH) has a total of 4 ions: 1 carbon ion (C4+), 4 hydrogen ions (4H+), and 1 oxygen ion (O2-).
Each atom is an ion, so it would have 6 ions. The overall charge of the molecule is neutral though.
yes
Since CH3OH does not ionize in solution, the total molar concentration of ions in a 1.240 M solution of CH3OH would be 0, as there are no ions present.
The van't Hoff factor for CH3OH (methanol) is 1, since it does not dissociate into ions in solution.
Methanol (CH3OH) is not an electrolyte because it does not dissociate into ions in water. It remains as neutral molecules in solution and does not conduct electricity.
MgBr2 will cause the light bulb to glow brightly because it is an ionic compound that will dissociate into ions in solution, allowing for the flow of electric current necessary to light up the bulb. CH3OH is a covalent compound that will not dissociate into ions and therefore will not conduct electricity as effectively.
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 is molecular.
There are 6.022 x 10^23 molecules of CH3OH in 1.00 mole. This number is known as Avogadro's number and represents the number of particles in one mole of a substance.
Ch3oh
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.
Co2 + 3h2 gives ch3oh + h2o
No, CH3OH (methanol) is an organic compound because it contains carbon-hydrogen bonds. Inorganic compounds typically do not contain carbon-hydrogen bonds.
The answer is 3,211 g.
No, CH3OH is not an element. It is a compound with the chemical formula CH3OH, which represents methanol, a type of alcohol.
To calculate the mass of methanol (CH3OH), we first need to find the molar mass of CH3OH. The molar mass of CH3OH is approximately 32 grams per mole. By multiplying the molar mass by the given amount of 9.85x10^24 molecules, we can find the mass in grams, which is about 3.15x10^26 grams.
CH3OH is an alcohol, in particular methyl alcohol or methanol. The OH is the alcohol functional group.
yes
Ch3oh