Density Converter

Free Online Tool Supporting 8 Density Units

The Density Converter is a free online tool for easily converting between 8 density units including g/cm³, kg/m³, and lb/ft³. Useful for materials science, chemical experiments, architectural design, logistics calculations, geological surveys, physics research, and more. Real-time calculation displays results as you type.

Density Conversion

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Practical Use Cases for Density Converter

Density unit conversion is routinely needed in various professional fields:

1. Material Property Evaluation in Materials Science & Engineering

In new material development and quality control, density is one of the important physical properties. This tool is useful when comparing materials such as metals (iron: 7.87 g/cm³, aluminum: 2.7 g/cm³, gold: 19.3 g/cm³), plastics, and ceramics between international standards (kg/m³) and US standards (lb/ft³).

2. Concentration Calculations in Chemical Experiments

In solution preparation and chemical reaction calculations, density is essential information. Using water density (1 g/cm³ = 1 g/mL = 1 kg/L) as a reference, converting densities of various liquids such as ethanol (0.789 g/cm³) and sulfuric acid (1.84 g/cm³) to appropriate units enables accurate concentration calculations.

3. Material Selection in Architecture & Civil Engineering

In selecting construction materials, density information is needed for structural calculations. Comparing densities of concrete (approximately 2.4 g/cm³ = 2400 kg/m³ = 150 lb/ft³), wood (pine: 0.5 g/cm³, oak: 0.75 g/cm³), and steel in unified units enables optimal material selection and load calculations.

4. Weight Calculations in Logistics & Transportation

In cargo weight calculations, total weight must be calculated from density and volume. When planning transportation of liquid cargo (petroleum: 0.88 g/cm³, milk: 1.03 g/cm³) or powders (wheat flour: 0.59 g/cm³, sugar: 0.85 g/cm³), total weight is calculated from container volume and density.

5. Rock Classification in Geology & Mineralogy

In classification and identification of rocks and minerals, density is an important distinguishing criterion. Different rock types are distinguished by density: granite (2.7 g/cm³), basalt (3.0 g/cm³), limestone (2.3 g/cm³). It is also used for ore grade evaluation (e.g., gold ore density measurement).

6. Fluid Dynamics Calculations in Physics Research

In fluid dynamics simulations and experiments, liquid and gas density are important parameters. Different fluid densities such as air (0.0013 g/cm³ = 1.3 kg/m³), water (1 g/cm³ = 1000 kg/m³), and mercury (13.6 g/cm³) must be handled in appropriate unit systems (SI units, CGS units, imperial units).

What is Density? Types of Units and Conversion Methods

Density is a physical quantity representing the mass per unit volume of a substance. Defined by the formula density = mass ÷ volume, it is used as a characteristic property of substances for material identification and quality evaluation.

Classification of Major Density Units

Density units are composed of combinations of mass and volume units. [SI Units (International System of Units)] kg/m³ (kilograms per cubic meter) is the standard unit. [CGS Units] g/cm³ (grams per cubic centimeter) = g/mL = kg/L, most common in laboratories. [Imperial Units (US/UK)] lb/ft³ (pounds per cubic foot), lb/in³ (pounds per cubic inch) are used. [Other Units] oz/in³ (ounces per cubic inch), oz/gal (ounces per gallon, for liquid density) are also used in specific fields.

Density Unit Conversion Factors

The conversion relationships for major density units are as follows: [Reference: 1 g/cm³] = 1000 kg/m³ (water density is the reference), = 62.43 lb/ft³, = 0.03613 lb/in³, = 1 g/mL (standard for liquid density), = 1 kg/L, = 0.5780 oz/in³, = 8.345 lb/gal (US gallon). Using these conversion factors enables conversion of density values between different unit systems.

Density Measurement and Practical Applications

Density measurement methods include: [Direct Measurement Method] Calculate by directly measuring mass (balance) and volume (measuring cylinder, calipers), [Buoyancy Method (Archimedes' Principle)] Calculate volume from weight decrease in water, [Pycnometer Method] Use precise volume measuring containers, [Digital Density Meter] High-precision measurement with automatic measuring devices. Measured density is used for various purposes: substance purity confirmation, alloy composition estimation, liquid concentration management, quality control, authenticity verification, and more.

Benefits of the Density Conversion Tool

High-Precision Unit Conversion

Uses scientifically accurate conversion factors to guarantee the precision needed for engineering calculations and research.

International and US Standard Mutual Conversion

Conversion between SI units (kg/m³) and imperial units (lb/ft³) makes reading international specifications easy.

Real-Time Calculation

Results are displayed as you enter values, enabling quick decisions and calculations.

Privacy Protection

All calculations are performed in your browser, and no data is sent to servers. Safe to use even for confidential projects.

Important Notes for Density Conversion

⚠️ Be aware of the effects of temperature and pressure on density.

Environmental Conditions in Density Measurement

Temperature Effects

Substances expand with temperature increase, decreasing density
Liquids are more affected by temperature changes than solids
Recording standard measurement temperature (20°C or 25°C) is important
Temperature correction is required for precise measurements

Pressure Effects

Substances are compressed with pressure increase, increasing density
Gases are very sensitive to pressure changes (ideal gas law)
Liquids and solids are less affected by pressure changes
Standard state measurements (1 atm, 0°C or 20°C) are standard

For accurate density measurements, always record temperature and pressure conditions. Especially for gases and liquids, these conditions greatly affect density.

Proper Usage Methods

✅ Unit conversion under identical temperature and pressure conditions
✅ Comparison under standard conditions (20°C, 1 atm)
✅ Material specification conversion in engineering calculations
❌ Direct comparison under different temperature conditions (temperature correction required)
❌ Comparison of gas densities under different pressure conditions (pressure correction required)

For important calculations, clearly state measurement conditions (temperature and pressure) and perform correction calculations as needed.

Frequently Asked Questions (FAQ)

How do I convert between g/cm³ and kg/m³?

1 g/cm³ = 1000 kg/m³. To convert from g/cm³ to kg/m³, multiply by 1000. To convert from kg/m³ to g/cm³, divide by 1000. Example: Iron density 7.87 g/cm³ = 7870 kg/m³.

Is water density always 1 in any unit?

No, it differs by unit. Water (at 4°C) density is: 1 g/cm³ = 1 g/mL = 1 kg/L = 1000 kg/m³ = 62.43 lb/ft³. It equals "1" only in g/cm³, g/mL, and kg/L.

What is the difference between "specific gravity" and "density"?

Specific Gravity is a dimensionless value obtained by dividing a substance's density by water's density. Example: Iron specific gravity = 7.87 (iron density 7.87 g/cm³ ÷ water density 1 g/cm³). Specific gravity has no unit, but density has units (such as g/cm³).

What is the relationship formula between density, mass, and volume?

Density = mass ÷ volume, mass = density × volume, volume = mass ÷ density. Example: The mass of 100 cm³ of aluminum with density 2.7 g/cm³ is 2.7 × 100 = 270 g.

Can I convert gas densities too?

Yes, you can. However, gas density greatly changes with temperature and pressure. Example: Air density (standard state, 0°C, 1 atm) is approximately 1.3 kg/m³ = 0.0013 g/cm³ = 0.081 lb/ft³.

Why are there so many density units?

For historical and regional reasons, different unit systems (SI units, CGS units, imperial units) developed. Internationally, SI units (kg/m³) are standard, but in laboratories, CGS units (g/cm³) are widely used, and in the US, imperial units (lb/ft³) are still widely used.

What is the calculation precision of this tool?

This tool uses high-precision conversion factors and calculates accurately to 8 decimal places. However, display is automatically adjusted to an appropriate number of digits (typically 4-6 digits) depending on value magnitude. Provides sufficient precision for scientific calculations and engineering purposes.

What are the highest and lowest density substances?

At room temperature and pressure: [Highest density element] Osmium (22.59 g/cm³), [Lowest density gas] Hydrogen (0.00009 g/cm³). Reference: Gold 19.3 g/cm³, lead 11.3 g/cm³, water 1.0 g/cm³, air 0.0013 g/cm³.