Copper Mass Calculation: 2.8 M³ At 8900 Kg/m³
Understanding density and mass is crucial in physics and engineering. This article will guide you through calculating the mass of a specific volume of copper, given its density.
Understanding Density
Density is defined as mass per unit volume. It's a fundamental property of a material. The formula for density (")ρ(") is:
ρ = m/V
Where:
- ρ is the density
- m is the mass
- V is the volume
Given Information
We are given:
- Density of copper (ρ) = 8900 kg/m³
- Volume of copper (V) = 2.8 m³
We need to find the mass (m).
Calculation
To find the mass, we rearrange the density formula:
m = ρ * V
Substitute the given values:
m = 8900 kg/m³ * 2.8 m³
m = 24920 kg
Result
The mass of 2.8 m³ of copper is 24,920 kilograms.
Importance of Density Calculations
Density calculations are essential in various fields:
- Engineering: Determining the weight of materials for construction.
- Physics: Understanding material properties and behavior.
- Material Science: Identifying and classifying materials.
Practical Applications
Consider a scenario where you need to transport a copper block of 2.8 m³. Knowing its mass (24,920 kg) is crucial for selecting appropriate transportation equipment and ensuring safety.
Further Exploration
Explore how density changes with temperature and pressure. Research different materials and their densities to broaden your understanding.
Conclusion
Calculating the mass of a substance using its density and volume is a straightforward process with significant practical implications. This example with copper demonstrates a fundamental concept applicable across numerous scientific and engineering disciplines. Understanding these principles allows for accurate predictions and informed decision-making in real-world applications. Whether you're an engineer designing structures or a student learning physics, mastering density calculations is an invaluable skill.