The density of lead is approximately 11.34 grams per cubic centimeter. To find the mass of 100 milliliters of lead, we first need to convert milliliters to cubic centimeters since they are equivalent. So, 100 milliliters is equal to 100 cubic centimeters. Using the density of lead, we can calculate the mass by multiplying the volume (100 cm³) by the density (11.34 g/cm³), resulting in a mass of 1134 grams.
kg. is a unit of mass, cubic cm. is a unit of volume. You can convert in the case of specific substances, if you know the density. For example, water has a density of 1000 kg. per cubic meter, or 1 gram per cubic centimeter; that is equivalent to 0.001 kg. for every cubic cm. For other substances, multiply this value with the density (in gram / cubic centimeter); for example, since the density of gold is about 19, each cubic cm. will have a mass of about 0.019 kg.kg. is a unit of mass, cubic cm. is a unit of volume. You can convert in the case of specific substances, if you know the density. For example, water has a density of 1000 kg. per cubic meter, or 1 gram per cubic centimeter; that is equivalent to 0.001 kg. for every cubic cm. For other substances, multiply this value with the density (in gram / cubic centimeter); for example, since the density of gold is about 19, each cubic cm. will have a mass of about 0.019 kg.kg. is a unit of mass, cubic cm. is a unit of volume. You can convert in the case of specific substances, if you know the density. For example, water has a density of 1000 kg. per cubic meter, or 1 gram per cubic centimeter; that is equivalent to 0.001 kg. for every cubic cm. For other substances, multiply this value with the density (in gram / cubic centimeter); for example, since the density of gold is about 19, each cubic cm. will have a mass of about 0.019 kg.kg. is a unit of mass, cubic cm. is a unit of volume. You can convert in the case of specific substances, if you know the density. For example, water has a density of 1000 kg. per cubic meter, or 1 gram per cubic centimeter; that is equivalent to 0.001 kg. for every cubic cm. For other substances, multiply this value with the density (in gram / cubic centimeter); for example, since the density of gold is about 19, each cubic cm. will have a mass of about 0.019 kg.
Lead density = 11.34 gram/cubic cmFor 10 cubic cm, mass is 113.4 grams
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.
47.4 (Kg) Kilograms
A cubic centimeter of pure water at maximum density has a mass of what?
Divide the number of grams by the density (the density of lead is about 11 grams/cubic centimeter - look it up if you need more precision). If the density is in grams/cubic centimeter, the answer is the volume in cubic centimeters.
Depends on the density.
The mass of a cubic centimeter, also called density, varies with several factors. Gravity, other forms of pressure, temperature, and the type of substance can change what the density, or grams per cubic centimeter, is.
The density is (408)/(the volume in cubic centimeters) grams per cubic centimeter.
density = mass/volume density = grams/ cubic centimeter 1 cubic centimeter = 1 milliliter density = 17.84/15 = 1.19 grams/milliliter
To find the mass of a piece of copper, you can use the formula: mass = volume × density. Given that the volume is 5.00 cubic centimeters and the density of copper is 8.96 grams per cubic centimeter, the mass would be 5.00 cm³ × 8.96 g/cm³ = 44.80 grams. Thus, the mass of the copper piece is 44.80 grams.
No, an object that has a mass of 3.68 grams per cubic centimeter will not float on water. This density is greater than that of water, which has a density of 1 gram per cubic centimeter, so the object will sink in water.
The density of lead is approximately 11.34 grams per cubic centimeter. To find the mass of 100 milliliters of lead, we first need to convert milliliters to cubic centimeters since they are equivalent. So, 100 milliliters is equal to 100 cubic centimeters. Using the density of lead, we can calculate the mass by multiplying the volume (100 cm³) by the density (11.34 g/cm³), resulting in a mass of 1134 grams.
Boron has a density of 2.34 grams per cubic centimeter. A link is provided. It also has a mass of 10.811 grams.
No. One gram is a measure of mass only. One gram per cubic centimeter is a measure of density, which is mass/volume. One gram per cubic centimeter means that every cubic centimeter has a mass of one gram.
The density of the rock is calculated by dividing the mass (35 grams) by the volume (7.0 cubic centimeters). Density = mass/volume, so the density of the rock would be 5 grams per cubic centimeter.