How does density differ from mass? Mass decreases as density increases. Density is the mass of an object. Density is a per-volume metric of mass. O Mass is a per-volume metric of density.

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### Understanding the Difference Between Density and Mass **How does density differ from mass?** 1. ⭘ Mass decreases as density increases. 2. ⭘ Density is the mass of an object. 3. ⭘ Density is a per-volume metric of mass. 4. ⬤ Mass is a per-volume metric of density. In the context of an educational website, this section is designed to help students understand the distinction between the concepts of density and mass. - **Incorrect Option 1:** "Mass decreases as density increases." - This statement is incorrect. Mass and density are related but an increase in density does not imply a decrease in mass. Both can actually increase simultaneously if volume decreases. - **Incorrect Option 2:** "Density is the mass of an object." - This statement is incorrect. Density refers to how much mass is contained within a certain volume. - **Incorrect Option 3:** "Density is a per-volume metric of mass." - This statement is also partially correct since density indeed measures mass per unit volume (e.g., grams per cubic centimeter). - **Correct Option 4:** "Mass is a per-volume metric of density." - This statement encapsulates the essence of density's definition, where density (ρ) is defined as ρ = mass/volume. Through these options, students can understand that: - **Mass** is a measure of the amount of matter in an object, typically measured in kilograms or grams. - **Density** is the measure of mass per unit volume, helping to quantify how compact or concentrated matter is within a given space. Understanding the precise relationship between mass, volume, and density is crucial for subjects like physics, chemistry, and engineering.