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Gram/cubic centimeter to Kilogram/cubic meter Converter

Enter the value that you want to convert gram/cubic centimeter (g/cm³) to kilogram/cubic meter (kg/m³) or kilogram/cubic meter to gram/cubic centimeter.Also written as G/CM³ to KG/M³ conversion.

1 gram/cubic centimeter = 1000.0000000 kilogram/cubic meter

Formula: kilogram/cubic meter = gram/cubic centimeter value × 1000.0000000

G/CM³ to KG/M³gram/cubic centimeter to kilogram/cubic meter

g/cm³
10000.00000kg/m³

10 gram/cubic centimeter = 10000.00000 kilogram/cubic meter

Popular Density Converters:

Converting Gram/cubic centimeter to Kilogram/cubic meter

What is Gram/cubic centimeter?

Gram/cubic centimeter (g/cm³) is a unit of density measurement. 1 gram/cubic centimeter is equal to 1000.0000000 kilogram/cubic meter.

The Kilogram/cubic meter in Engineering

Kilogram/cubic meter (kg/m³) is a unit of density measurement. 1 kilogram/cubic meter is equal to 0.0010000 gram/cubic centimeter.

Density Conversions in Materials Science

Density units vary by industry: chemists use g/mL or g/cm³, engineers use kg/m³, and American petroleum standards use lb/ft³ or lb/gal. Quality control in manufacturing, buoyancy calculations in naval architecture, concrete mix design, and oil/gas well logging all require converting between density units. Different countries and standards bodies specify materials in different density units.

gram/cubic centimeter to kilogram/cubic meter metric conversion table

0.01 g/cm³=10.00000 kg/m³
0.1 g/cm³=100.00000 kg/m³
1 g/cm³=1000.00000 kg/m³
2 g/cm³=2000.00000 kg/m³
3 g/cm³=3000.00000 kg/m³
4 g/cm³=4000.00000 kg/m³
5 g/cm³=5000.00000 kg/m³
6 g/cm³=6000.00000 kg/m³
7 g/cm³=7000.00000 kg/m³
8 g/cm³=8000.00000 kg/m³
9 g/cm³=9000.00000 kg/m³
10 g/cm³=10000.00000 kg/m³
11 g/cm³=11000.00000 kg/m³
12 g/cm³=12000.00000 kg/m³
13 g/cm³=13000.00000 kg/m³
14 g/cm³=14000.00000 kg/m³
15 g/cm³=15000.00000 kg/m³
16 g/cm³=16000.00000 kg/m³
17 g/cm³=17000.00000 kg/m³
18 g/cm³=18000.00000 kg/m³
19 g/cm³=19000.00000 kg/m³
20 g/cm³=20000.00000 kg/m³
30 g/cm³=30000.00000 kg/m³
40 g/cm³=40000.00000 kg/m³
50 g/cm³=50000.00000 kg/m³
60 g/cm³=60000.00000 kg/m³
70 g/cm³=70000.00000 kg/m³
80 g/cm³=80000.00000 kg/m³
90 g/cm³=90000.00000 kg/m³
100 g/cm³=100000.00000 kg/m³
200 g/cm³=200000.00000 kg/m³
300 g/cm³=300000.00000 kg/m³
400 g/cm³=400000.00000 kg/m³
500 g/cm³=500000.00000 kg/m³
600 g/cm³=600000.00000 kg/m³
700 g/cm³=700000.00000 kg/m³
800 g/cm³=800000.00000 kg/m³
900 g/cm³=900000.00000 kg/m³
1000 g/cm³=1000000.00000 kg/m³

How to Convert G/CM³ to KG/M³ (Gram/cubic centimeter to Kilogram/cubic meter)?

We can convert gram/cubic centimeter to kilogram/cubic meter by using an example.

Example:

Convert 20 Gram/cubic centimeter to Kilogram/cubic meter?

We know 1 Gram/cubic centimeter = 1000.0000000 kilogram/cubic meter; 1 Kilogram/cubic meter = 0.0010000 gram/cubic centimeter.

20 gram/cubic centimeter = ___kg/m³

20 × 1000.0000000 = 20000.00000 kg/m³ (we know 1 gram/cubic centimeter = 1000.0000000 kilogram/cubic meter)

Answer:

20 gram/cubic centimeter = 20000.00000 kilogram/cubic meter

Converting g/cm³ to kg/m³ for Chemistry and Geology

In chemistry labs and geological surveys, density is typically reported in g/cm³. To use these values in engineering formulas (force, pressure, buoyancy), you need kg/m³. The conversion is straightforward: multiply by 1,000. This stems from the fact that 1 cm³ is one-millionth of a m³, while 1 g is one-thousandth of a kg — the net effect is a factor of 1,000.

  1. Identify the density in g/cm³.
  2. Multiply by 1,000.
  3. The result is the density in kg/m³.
  4. Cross-check: quartz (2.65 g/cm³) should give 2,650 kg/m³.
💡 Tip: Move the decimal three places to the right. This conversion is the inverse of kg/m³ → g/cm³.

Mineral and Chemical Densities: g/cm³ to kg/m³

Key minerals, metals, and chemicals used in geology, metallurgy, and industrial chemistry:

Gram/cubic centimeterKilogram/cubic meter
2.65 g/cm³2,650 kg/m³
3.52 g/cm³3,520 kg/m³
5.24 g/cm³5,240 kg/m³
7.87 g/cm³7,870 kg/m³
10.50 g/cm³10,500 kg/m³
19.30 g/cm³19,300 kg/m³
21.45 g/cm³21,450 kg/m³
22.59 g/cm³22,590 kg/m³

Solved Examples: g/cm³ to kg/m³

Question 1: A geologist identifies a mineral sample with density 4.02 g/cm³. Convert to kg/m³ for a drilling cost model.

Solution:

Density in kg/m³ = g/cm³ × 1,000

= 4.02 × 1,000

= 4,020 kg/m³

Answer: 4.02 g/cm³ = 4,020 kg/m³ — consistent with corundum or barite minerals.

Question 2: Zinc ore (sphalerite) has a density of 4.09 g/cm³. Express in kg/m³.

Solution:

Density in kg/m³ = g/cm³ × 1,000

= 4.09 × 1,000

= 4,090 kg/m³

Answer: 4.09 g/cm³ = 4,090 kg/m³ for sphalerite.

Question 3: A plastic composite measures 1.38 g/cm³. What is this in kg/m³ for a finite element analysis?

Solution:

Density in kg/m³ = g/cm³ × 1,000

= 1.38 × 1,000

= 1,380 kg/m³

Answer: 1.38 g/cm³ = 1,380 kg/m³ — typical for glass-filled nylon composites.

Practice Conversions: g/cm³ to kg/m³

Try solving these on your own to test your understanding:

  1. Convert 2.33 g/cm³ (silicon wafer) to kg/m³. (Answer: 2,330 kg/m³)
  2. Express 8.96 g/cm³ (copper) in kg/m³. (Answer: 8,960 kg/m³)
  3. A ceramic is 3.90 g/cm³. Convert to kg/m³. (Answer: 3,900 kg/m³)
  4. Tungsten at 19.25 g/cm³ in kg/m³. (Answer: 19,250 kg/m³)
  5. Polypropylene at 0.91 g/cm³ in kg/m³. (Answer: 910 kg/m³)

Mineral Identification Using Density

Geologists use density (specific gravity) as a primary identification tool for unknown mineral samples. A Jolly balance or pycnometer measures density in g/cm³ directly. By comparing the measured value against known mineral densities — quartz (2.65), feldspar (2.56), calcite (2.71), galena (7.6) — geologists can narrow down mineral identity. Converting to kg/m³ is then required for geophysical modeling of subsurface rock layers.

Why kg/m³ Matters for Engineering Simulations

Finite element analysis (FEA) and computational fluid dynamics (CFD) software require density in kg/m³ to maintain dimensional consistency with other SI quantities (force in N, stress in Pa, time in seconds). Entering g/cm³ without conversion would produce results off by a factor of 1,000, leading to catastrophically wrong stress predictions or flow velocities. Always verify units before running simulations.

Key Takeaways

  • 1 g/cm³ = 1,000 kg/m³ (multiply by 1,000).
  • Move the decimal three places right.
  • Essential for converting lab measurements to engineering inputs.
  • Density in g/cm³ equals specific gravity (dimensionless) numerically.
  • FEA/CFD software requires kg/m³ for correct SI-based results.

Gram/cubic centimeter to Kilogram/cubic meter Conversion Formula

kilogram/cubic meter = gram/cubic centimeter × 1000.0000000

1 gram/cubic centimeter = 1000.0000000 kilogram/cubic meter

1 kilogram/cubic meter = 0.0010000 gram/cubic centimeter

Reverse: gram/cubic centimeter = kilogram/cubic meter × 0.0010000

Frequently Asked Questions

How many kilogram/cubic meter are in 1 gram/cubic centimeter?

There are 1000.0000000 kilogram/cubic meter in 1 gram/cubic centimeter. To convert gram/cubic centimeter to kilogram/cubic meter, multiply the value by 1000.0000000.

How do I convert gram/cubic centimeter to kilogram/cubic meter?

Multiply your gram/cubic centimeter value by 1000.0000000 to get the equivalent in kilogram/cubic meter. For example, 5 gram/cubic centimeter = 5 × 1000.0000000 = 5000.00000 kilogram/cubic meter.

How do I convert kilogram/cubic meter to gram/cubic centimeter?

Multiply your kilogram/cubic meter value by 0.0010000 to get the equivalent in gram/cubic centimeter. Alternatively, divide by 1000.0000000.

What is 10 gram/cubic centimeter in kilogram/cubic meter?

10 gram/cubic centimeter is equal to 10000.00000 kilogram/cubic meter.

What is 100 gram/cubic centimeter in kilogram/cubic meter?

100 gram/cubic centimeter is equal to 100000.00000 kilogram/cubic meter.