The mass of 40 grams is 40 grams and the volume of 20mL is, wait for it, ... 20 mL!
3 g/10 cm3 = 0.3 g/cm3 and this is the density, since density is expressed as mass/volume.
Using those exact quantities, we can calculate that the mass is precisely 10 grams.
Density = mass / volume Mass = 1.989 x 1027 Volume = 1.412 x 1030 Density = 1.989/1.412 x 10-3 = 0.0014086
To find the volume of 10 grams of acetone, you use the fact that the density of acetone is 0.7857 grams per cubic centimeter. The density formula is given as mass divided by volume, or m/V. The volume is mass/density or 10/0.7857, which is equal to 12.73 cubic centimeter.
To determine the density of 10 grams of granular zinc, you would divide the mass (10g) by the volume. First, measure the volume of the zinc using a graduated cylinder. Then, divide the mass by the volume to calculate the density (Density = Mass/Volume).
The density of the substance is calculated by dividing its mass by its volume. In this case, the mass is 100g and the volume is 10 cm^3. Therefore, the density would be 10 g/cm^3.
10 kg of mass is equivalent to 10 liters of water, assuming the water has a density of 1 kg/L.
1 Volume of water is nothing but volume of water measured in liters or ml EG Volume = mass/density 1 Volume= 1 gm/1 gm/cc = 1 cc therefore 10 volume = 10 cc if it is in KG, 10 volume= 10 kg/10kg/L = 10 L
To determine the density of granular zinc, you would need to measure its volume. You can do this by placing the granular zinc in a graduated cylinder and measuring the volume of water displaced. Once you have both the mass (10 grams) and volume, you can divide the mass by the volume to calculate the density of the granular zinc.
To determine how much mass the box can hold before sinking in water, you need to calculate its volume and compare it to the volume of water it displaces when fully submerged. The buoyant force acting on the box must be equal to or greater than its weight for it to float. Given the dimensions of the box, find its volume, then calculate the weight of water displaced by that volume to determine the maximum mass it can hold before sinking.
The density of a substance is equal to its mass divided by its volume. To calculate the density of oxygen in this case, we need to divide its mass by its volume. So, the density of 10 liters of oxygen with a mass of 0.014 would be 0.0014 g/mL.
The mass density would be 10 g/cm^3, calculated by dividing the mass (50g) by the volume (5 cm^3).
Ice has a density of 0.92 grams per milliter. This means that ten pounds of ice is equal to 4.93 liters. This is equal to 20.84 cups of liquid water.
To find the density of 10 grams of granular sodium chloride, first measure the volume of the sample. Then calculate the density by dividing the mass (10 grams) by the volume. The formula for density is Density = Mass/Volume.
10 cm3 of water would displace an equivalent volume of water when submerged. This displacement would be equal to 10 ml or 10 grams of water.
Water expands approximately 10% when frozen, so the water would have less volume than the ice.