100 grams is its mass, whatever the shape.
the atomic mass of gallium is approximately 69.72 g/mol therefore the mass of 100 grams of gallium would be 100g divided by 69.72g/mol which gives us approximately 1.43 moles
The density of the object is calculated by dividing the mass (100g) by the volume (25cm3). Therefore, the density would be 4 g/cm3.
The density of mercury is approximately 13.6 g/cm³. To find the volume, you would divide the mass by the density: 100g / 13.6 g/cm³ = 7.35 cm³. Therefore, 100g of mercury would have a volume of 7.35 cm³.
The volume of air with a mass of 100g would depend on the density of the air. The density of air at room temperature and pressure is approximately 1.2 kg/m^3. Using the formula density = mass/volume, you can calculate that the volume of 100g of air would be approximately 0.083 m^3.
Lead has a higher density compared to aluminum. So, to find the mass of lead that occupies the same volume as 100g of aluminum, you would first calculate the volume of the aluminum using its density. Then, you would find the mass of lead that occupies the same volume by using the density of lead.
The total mass of the container and sand is 167.5g (100g + 60g + 7.5g).
the atomic mass of gallium is approximately 69.72 g/mol therefore the mass of 100 grams of gallium would be 100g divided by 69.72g/mol which gives us approximately 1.43 moles
100g
0.006327754
density = mass/volume = 100g/50mL = 2g/mL
gold is more very hevy for its size so silver has a larger mass to waigt ratio 100g of siver is larger than 100g of gold
The idea is to divide the mass by the volume.
No, when 100g of iron reacts with oxygen to form iron oxide, the resulting compound will have a different mass than the initial iron due to the addition of oxygen atoms. The mass of the iron oxide formed will be greater than 100g, as the oxygen atoms combine with the iron atoms to form the compound.
The density of the object is calculated by dividing the mass (100g) by the volume (25cm3). Therefore, the density would be 4 g/cm3.
Density is defined as mass divided by volume, therefore: 100g/25cm3 = 4 g/cm3
All of the sides equal to 5cm Mass = 100g To find volume you do 5 X 5 X 5 = 125cm3 (Its cm3 because you X 5 by itself 3 times) Therefore 100g/ 125cm3 (You divide 100g (MASS) by 125cm3 (VOLUME)) Answer = 4/5 which in a whole number is 0.8g per cm3
The density of mercury is approximately 13.6 g/cm³. To find the volume, you would divide the mass by the density: 100g / 13.6 g/cm³ = 7.35 cm³. Therefore, 100g of mercury would have a volume of 7.35 cm³.