Wiki User
β 16y agoDivide by the density of ethanol.
Assuming that it is a total mass of 60.354 grams, and the density of ethanol is 0.789 grams per cm3 (or grams per mL), then the volume of that much ethanol is:
60.354 grams ÷ 0.789 grams/mL = 76.494 mL
Wiki User
β 16y agoTo find the total volume of ethanol, you would need the density of ethanol. Using the formula: volume = mass / density, you can calculate the volume of ethanol by dividing the total mass by the density of ethanol.
The total volume of the solution is 10ml + 40ml = 50ml. The percentage concentration of ethanol in the solution is (10ml / 50ml) * 100% = 20%.
The volume of 75.0g of ethanol can be calculated using the density of ethanol, which is about 0.789 g/mL at 20Β°C. By dividing the mass by the density, we find that the volume would be approximately 95.1 mL.
Adding ethanol to the solution will increase its volume, resulting in a higher total volume. This increase in volume will dilute the concentration of the solid acid in the solution. Additionally, the addition of ethanol may also affect the solubility and reactivity of the solid acid in the solution.
The density of ethanol is approximately 0.789 g/mL. To find the volume of ethanol with a mass of 15.5 grams, divide the mass by the density: 15.5 g / 0.789 g/mL β 19.6 mL.
To find the mole fraction of ethanol (C2H5OH), you first need to calculate the moles of ethanol in the solution. Then, calculate the total moles of all components in the solution. Finally, divide the moles of ethanol by the total moles to get the mole fraction. In this case, since the solution is 50% ethanol by mass, you can assume 50 g of the solution to make calculations simpler.
To find the total volume of 70% ethanol, you need to divide the volume of pure ethanol (1600 ml) by the concentration of ethanol (0.70). This gives you a total volume of approximately 2285.71 ml of 70% ethanol.
To find the volume of 85.5g of ethanol, you need to know the density of ethanol. The density of ethanol is approximately 0.789 g/mL at room temperature. You can divide the mass of ethanol (85.5g) by its density (0.789 g/mL) to find the volume in milliliters.
The total volume of the solution is 10ml + 40ml = 50ml. The percentage concentration of ethanol in the solution is (10ml / 50ml) * 100% = 20%.
The volume of 75.0g of ethanol can be calculated using the density of ethanol, which is about 0.789 g/mL at 20Β°C. By dividing the mass by the density, we find that the volume would be approximately 95.1 mL.
Adding ethanol to the solution will increase its volume, resulting in a higher total volume. This increase in volume will dilute the concentration of the solid acid in the solution. Additionally, the addition of ethanol may also affect the solubility and reactivity of the solid acid in the solution.
The density of ethanol is approximately 0.789 g/mL. To find the volume of ethanol with a mass of 15.5 grams, divide the mass by the density: 15.5 g / 0.789 g/mL β 19.6 mL.
Find the volume of the 100% ethanol Add 1/19 of water to the volume (if it is like 190ml, add 10ml of water since 190/200=95%)
To find the mole fraction of ethanol, you first calculate the total moles of the solution, which is 3.00 + 5.00 = 8.00 moles. Then, you divide the moles of ethanol by the total moles of the solution: 3.00 moles / 8.00 moles = 0.375. So, the mole fraction of ethanol in the solution is 0.375.
Ethanol (USP grade) has a density of 0.810. From here we have to use the formula: d=m/v, where d is density, m, mass and v, volume. Solving for volume, we have v=m/d, therefore: v= 15/0.810 = 18.52 mL of ethanol are equivalent to 15g.
To find the mole fraction of ethanol (C2H5OH), you first need to calculate the moles of ethanol in the solution. Then, calculate the total moles of all components in the solution. Finally, divide the moles of ethanol by the total moles to get the mole fraction. In this case, since the solution is 50% ethanol by mass, you can assume 50 g of the solution to make calculations simpler.
width = volume/(length*height)
To find the total volume of a box you need to find its dimensions, which are the length, width, and height. Once you measure all three of these, simply multiply them together to find the total volume.