The volume of a substance cannot be determined solely from its mass. The volume of a substance is dependent on its density and the formula used is: volume = mass / density. To determine the volume of 5.0g of chloroform, you would need to know the density of chloroform.
To determine the volume of 5.0 grams of chloroform, you need the density of chloroform. The density of chloroform is about 1.49 g/mL. You can calculate the volume using the formula: volume = mass / density. Therefore, the volume of 5.0 grams of chloroform would be approximately 3.36 mL.
Yes, you can determine the density of chloroform by measuring its mass and volume using water displacement method. You'll need a known volume of water, measure its initial volume in a graduated cylinder, then add chloroform which will displace the water and measure the final volume. By knowing the mass of chloroform and the change in volume of water, you can calculate the density of chloroform.
Informations are less to say. However it is a colorless liquid.
10g of chloroform has a greater volume than 10g of hexane because chloroform has a higher density than hexane. Density is a measure of mass per unit volume, so for the same mass, the substance with the higher density will occupy less volume.
To calculate chloroform concentration, divide the mass or volume of chloroform by the total volume of the solution it is in. For example, if you have 5 grams of chloroform in 100 mL of solution, the concentration would be 5 grams / 100 mL = 0.05 g/mL or 50 mg/mL.
The density of the wood is calculated by dividing the mass (50g) by the volume (210cm3). Density = Mass/Volume, so 50g / 210cm3 = 0.238 g/cm3.
To determine the volume of 5.0 grams of chloroform, you need the density of chloroform. The density of chloroform is about 1.49 g/mL. You can calculate the volume using the formula: volume = mass / density. Therefore, the volume of 5.0 grams of chloroform would be approximately 3.36 mL.
density = mass/volume = 50g/8cm^3 = 6.25 g/cm^3
Yes, you can determine the density of chloroform by measuring its mass and volume using water displacement method. You'll need a known volume of water, measure its initial volume in a graduated cylinder, then add chloroform which will displace the water and measure the final volume. By knowing the mass of chloroform and the change in volume of water, you can calculate the density of chloroform.
Informations are less to say. However it is a colorless liquid.
The density of the object is 10 g/cm³. It is calculated by dividing the mass (50g) by the volume (5 cm³).
10g of chloroform has a greater volume than 10g of hexane because chloroform has a higher density than hexane. Density is a measure of mass per unit volume, so for the same mass, the substance with the higher density will occupy less volume.
Volume = mass/volume = 500g/10cm3 = 50g/cm3
To calculate chloroform concentration, divide the mass or volume of chloroform by the total volume of the solution it is in. For example, if you have 5 grams of chloroform in 100 mL of solution, the concentration would be 5 grams / 100 mL = 0.05 g/mL or 50 mg/mL.
The mass density would be 10 g/cm^3, calculated by dividing the mass (50g) by the volume (5 cm^3).
(50g)/(15g/cm3)=3.333...cm3 or 3 1/3 cm3
The density of the object is 10 g/cm3. Density is calculated by dividing the mass of an object by its volume. In this case, 50g / 5 cm3 = 10 g/cm3.