The balanced equation for CO + H2 β CH3OH is: CO + 2H2 β CH3OH
The answer is 9.6 grams.
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.
To calculate the mass of 9.32x10^24 molecules of methanol (CH3OH), you can first find the molar mass of CH3OH, which is approximately 32 g/mol. Then, you can convert the number of molecules to moles and finally to grams. The calculation would be (9.32x10^24 molecules) / (6.022x10^23 molecules/mol) * (32 g/mol) = 497 grams.
No, the bonding in CH3OH is covalent. Covalent bonds form when atoms share electrons to achieve stability. In CH3OH, carbon shares electrons with hydrogen and oxygen to form a stable molecule.
No, CH3OH is not an element. It is a compound with the chemical formula CH3OH, which represents methanol, a type of alcohol.
The balanced equation for CO + H2 β CH3OH is: CO + 2H2 β CH3OH
The answer is 9.6 grams.
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.
To calculate the mass of 9.32x10^24 molecules of methanol (CH3OH), you can first find the molar mass of CH3OH, which is approximately 32 g/mol. Then, you can convert the number of molecules to moles and finally to grams. The calculation would be (9.32x10^24 molecules) / (6.022x10^23 molecules/mol) * (32 g/mol) = 497 grams.
CH3OH is a molecular compound. It is composed of covalent bonds between the carbon, hydrogen, and oxygen atoms, which involves the sharing of electrons between the atoms.
No, the bonding in CH3OH is covalent. Covalent bonds form when atoms share electrons to achieve stability. In CH3OH, carbon shares electrons with hydrogen and oxygen to form a stable molecule.
CH3OH is an alcohol, in particular methyl alcohol or methanol. The OH is the alcohol functional group.
To balance the equation CO2 + H2 β CH3OH, you would need to first balance the carbon atoms, then the hydrogen atoms, and finally the oxygen atoms. In this case, the balanced equation would be: CO2 + 3H2 β CH3OH + H2O.
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.
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 a weak acid, known as methanol. It can donate a proton in a chemical reaction, making it an acidic compound.