67.3 metres is a measure of distance and cannot be a measure of volume - as claimed in the question. There is, therefore, insufficient information to answer the question.
Density = Mass Density = 100g/50 cm. Density = 2g/cm3---------Volume.
density = mass/volume = 100g/50mL = 2g/mL
Density is defined as mass divided by volume, therefore: 100g/25cm3 = 4 g/cm3
Density = (mass) / (volume) = 20/4 = 5 grams per cc
A cup is a unit of volume, but a gram is a unit of mass. You can convert mass to volume by dividing by the substance's density (density is mass/volume), but you cannot know the volume of 100 grams of a substance without directly measuring it or knowing the density. Which is about as much use as a chocolate teapot. Well done whoever wrote this they listened in science.
Density = Mass Density = 100g/50 cm. Density = 2g/cm3---------Volume.
The idea is to divide the mass by the volume.
density = mass/volume = 100g/50mL = 2g/mL
Density = 4 g/mL
100 grams of water
Density = 4 g/mL
just give me the answer
Density = Mass/Volume = 100/200 = 0.5 grams per ml.
It depends on the substance in the container. Different substances have different densities. The higher the density, the more a given volume of the substance weighs. For example, if you are talking about water, the density of water is 1g/mL. 100mL x 1g/mL = 100g. So 100mL of water weights 100g.
10 grams/ cc. That is 10 times more dense than water.
100 grams of water takes up more space than an equal weight of lead. That is why lead does not float in water.
It is non sense to (directly) compare units of mass (grams) and units of volume (liters). However, they are related by density: density = mass/volume Thus if a substance has a density of 100 g / 1 liter = 100g / 1000 cm³ = 0.1 g/cm³ then 100g of it will occupy a volume of 1 liter.