To determine the mass of 32.5 cm3 of alcohol, you would need to know the density of the specific type of alcohol. Once you have the density, you can multiply the volume (32.5 cm3) by the density to find the mass.
The mass of a liter of alcohol depends on the type of alcohol. On average, the density of alcohol is around 0.79 g/mL, so a liter of alcohol would have a mass of approximately 790 grams.
The molar mass of isopropyl alcohol (C3H8O) is approximately 60.1 grams per mole.
Alcohol is a molecular compound made up of different elements such as carbon, hydrogen, and oxygen. Therefore, it does not have a single atomic number or atomic mass. The atomic number and atomic mass of the individual elements in alcohol (e.g., carbon, hydrogen, and oxygen) would need to be considered instead.
To find the capacity of the container, first, determine the mass of the alcohol by subtracting the mass of the empty container from the mass when filled: 175 g - 55 g = 120 g. Next, use the density formula (density = mass/volume) to find the volume: volume = mass/density = 120 g / 0.79 g/cm³ ≈ 151.9 cm³. Thus, the capacity of the container is approximately 151.9 cm³.
Divide the mass of the ethanol by the sum of the mass of the ethanol + that of the water and multiply by 100. Mass ethanol/(Mass ethanol + mass H2O) (x100)
The mass of a liter of alcohol depends on the type of alcohol. On average, the density of alcohol is around 0.79 g/mL, so a liter of alcohol would have a mass of approximately 790 grams.
The molar mass of isopropyl alcohol (C3H8O) is approximately 60.1 grams per mole.
The alcohol is cooked of and loses density in the liquid. Because the liquid becomes less dense, the mass goes down. (Unless you are talking about pure alcohol)
The mass of 2 moles of ethyl alcohol would be 92,14 grams.
The mass would be approximately 92 grams.
The molar mass of isopropyl alcohol (C3H8O) is approximately 60.1 grams per mole.
Depends on the volume. Density is mass divided by volume.
92
Alcohol is a molecular compound made up of different elements such as carbon, hydrogen, and oxygen. Therefore, it does not have a single atomic number or atomic mass. The atomic number and atomic mass of the individual elements in alcohol (e.g., carbon, hydrogen, and oxygen) would need to be considered instead.
Density mercury ≈ 5.43 g/ml. Density alcohol (ethanol) ≈ 0.789 g/ml. mass = density x volume ⇒ mass mercury ≈ 5.43 g/ml x 3.48 ml ≈ 18.90 g ⇒ mass alcohol ≈ 0.789 g/ml x 60.0 ml ≈ 47.34 g ⇒ 60.0 ml of alcohol has more mass than 3.48 ml of mercury.
A blood alcohol calculator measures the amount of alcohol in the bloodstream. It measures on mass per volume. No blood alcohol calculator is a 100% accurate.
The molar mass of the lightest alcohol, methanol, is 32.04 grams per mol. No alcohol has a molar mass of 4.75 grams. To find the molar mass of a substance, you sum the mass of every atom that makes up your compound. For methanol, you add the mass of three hydrogens, a carbon, and an oxygen atom. An alcohol group, more properly a "hydroxyl," consists of an oxygen and a hydrogen and contributes about 17 grams per mol to the molar mass (about 16 g/mol for an oxygen atom and 1 for a hydrogen). Hope this helps!