Concepts - Mass and Density

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Physics - Concepts - Mass and Density

In addition to the dimensions of an object - length, width, height, radius and so on - measurements of how much stuff an object is made and how much space the stuff fills are also measured.

Stuff can be anything: hydrogen gas, solid iron, water molecules. An object that contains a certain amount of stuff is said to have mass, and mass is measured by grams, kilograms, and so forth. Do not confuse weight with mass. Generally, weight is measured by pounds, ounces, and so on.

Mass = measure of the amount of matter within an object
Weight = measure of an object along with the effect of gravity.

The chart below demonstrates the difference between mass an weight as compared to location. Let's say I weight 70 kg (I wish):

Earth 70 kg 154 pounds

Moon 70 kg 26 pounds

Jupiter 70 kg 391 pounds

A White Dwarf 70 kg 25,000 pounds

The amount of "stuff" in my body remains the same, thus 70 kg but gravity affects how much I weigh. A White Dwarf is a very massive stellar remnant, thus my weight will be incredibly high.

On Earth, there is 2.2 pounds per kilograms. For pounds to kilograms, divide by 2.2.

Density and mass provide physical dimensions of a given object, but are completely different in application. While mass measures the total amount of stuff, density is how much individual particles of stuff are within a small space within the object. It is common for density measurement to be based on a centimeter cubed (cm³).

Density represents the mass (or number of particles) per unit volume of a substance, material, or object.

The chart below demonstrates two types of density: mass and particle. Mass density is the mass of an object per cm³ and particle density is how many particles there are in the same space.

Matter	Mass Density (g/cm³ )	Particle Density (parts per cm³ )
Water	1	3.7 x 10²²
Lead	11.3	3.3x10²²
Gold	19.3	5.9x10²²
Interstellar Space	2x10^-24	1

The three states of matter (solid, liquid and gas) also affect density.

If density and the space filled is known, it is possible to determine mass by the formula:

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