The density of the 6 cm3 block of ice is approximately 0.67 grams/cm3. This can be calculated by dividing the mass (4 grams) by the volume (6 cm3).
Density = Mass/Volume = 100 grams / 4 mL = 24 grams per mL.
Density = mass ÷ volume = 12g ÷ 3cm3 = 4 g/cm3
Density = Mass/Volume = 17/4 = 4.25 grams per cm3
Density = Mass/Volume = 50/(4*4*4) = 50/64 = 0.78125 grams per cm3.
The density of the 6 cm3 block of ice is approximately 0.67 grams/cm3. This can be calculated by dividing the mass (4 grams) by the volume (6 cm3).
When the water froze into ice it was expanding (thermal expanision) causing the 100 grams of ice to have a greater volume than 100 grams of water!
When the water froze into ice it was expanding (thermal expanision) causing the 100 grams of ice to have a greater volume than 100 grams of water!
Ice cream is measured by litres in bulk, or grams by serving
8 grams/4 cubic centimeters = 2 grams per cubic centimeter
It depends on the material. Teaspoons are a unit of volume; grams are a unit of mass.
Grams can't be converted to cups. Grams measure mass, while cups measure volume.
Density = Mass/Volume = 100 grams / 4 mL = 24 grams per mL.
180 / 45 = 4 grams per cc
Your mysterious block has a density of 10 grams/cm3 ,and that should tell you right away that it's not ice.
29 cc of water at 4 degrees Celsius = 29 grams. You can't convert a volume to a mass unless you know the density of the material occupying the volume.
Yes it is. Depending on how big the ice is.Further Size is immaterial. The denseness of something does not depend on how big it is. The weight does. You measure denseness as weight per volume (e.g. grams per cubic centimetre). The more grams there are, obviously the more it will weigh, but it will also occupy a proportionally greater volume.