Ml of ethanol to grams converter

1 milliliter of ethanol equals 0.783 grams

substance ? Choose a substance by typing its name in the box.
volume ? Enter the volume quantity. Accepts fractions: 1/2, 1/3, etc.
unit ? Select the volume unit (cup, ml, liter, etc.)
unit ? Select the weight unit (kg, gram, pound, etc.)
Sig. Figures:
Conversion Result
1 milliliter of ethanol weighs 0.783 grams

Conversion Table: Milliliters to Grams near 1 milliliter (ethanol)

Milliliters to Grams (ethanol - Part 1)
Milliliters Grams Actions
0.1 milliliters 0.0783 grams
15 milliliters 0.157 grams
0.3 milliliters 0.235 grams
0.4 milliliters 0.313 grams
12 milliliters 0.392 grams
0.6 milliliters 0.47 grams
0.7 milliliters 0.548 grams
0.8 milliliters 0.626 grams
0.9 milliliters 0.705 grams
1 milliliter 0.783 grams
Milliliters to Grams (ethanol - Part 2)
Milliliters Grams Actions
1.1 milliliters 0.861 grams
15 milliliters 0.94 grams
1.3 milliliters 1.02 grams
1.4 milliliters 1.1 grams
12 milliliters 1.17 grams
1.6 milliliters 1.25 grams
1.7 milliliters 1.33 grams
1.8 milliliters 1.41 grams
1.9 milliliters 1.49 grams

Note: converted values are rounded for clarity. The input value (1) is highlighted if present in the table.

How to Convert 1 milliliter of Ethanol to Grams

Step 1: Get the density

Find the density of ethanol. Different substances have different densities, which affects the conversion. Ethanol at 25 °C | density: 783 kg/m³

Step 2: Apply the conversion formula

Multiply 1 milliliter by the density factor to get the weight in grams.

mass = density × volume

Step 3: Get the result

1 milliliter of ethanol equals 0.783 grams.

Density varies with temperature and pressure. The value shown corresponds to the reference conditions for ethanol. For other conditions, density may differ — especially for gases and volatile liquids.

How to convert from volume to mass (often referred to as weight)?

Well, by definition of density we just need to use the formula:

mass = density × volume

Example: How much does 2 cubic meters of gasoline weigh in kilograms if the gasoline density is 750 kg/m³?

Plugging the values in the formula, we get

mass = density × volume = 750 × 2 = 1500 Kg

Very simple isn't it? Yes, it is as simple as that. But this works fine when the density value we have (from a chart for example) is defined using the same unit of volume and mass that we will use in the formula. For example, mass in kg and volume in liters. If we have, for example, mass in pounds and volume in gallons, we should do something to correct our result.

To transform the mass from pounds to kilograms we should multiply the mass in pounds by 0.45359237. We will call 0.45359237 the mass conversion factor - mcf

Matematically we write:

mass in kilograms = mass in pounds × mcf or

mkg = mlb × mcf (1)

To transform the volume from gallons to cubic meters we should multiply the volume in gallons by 0.003785411784. We will call 0.003785411784 the volume conversion factor - vcf

Matematically we write:

volume in cubic meters = volume in gallons × vcf or

v = vgal × vcf (2)

Now, dividing the equation (1) by the equation (2), we get

mkgv = mlb × mcfvgal × vcf, or

mkgv = mlbvgal × mcfvcf, but mkgv is, by definition, the density (d) in kg/m³, so

d = mlbvgal × mcfvcf

Rearranging the formula above we get

mlb = d × vgal × vcfmcf

Finally, we can generalize this formula any units of mass and volume, since we know how to find the values for mcf and vcf (Check the factor tables below).

m = d × v × vcfmcf

That is exactly the formula that we use in this calculator. You can see how this formula works reading the example above or/and choosing another one at the bottom of this page.

These tables contain the most frequently used vcf and mcf.

Volume-unit conversion factors
Volume Unit Factor to convert to m³ (vcf)
milliliter0.000001
UK fluid ounce0.0000284130625
US fluid ounce0.00002957352956
UK gallon0.00454609
US gallon0.003785411784
Mass-unit conversion factors
Mass Unit Factor to convert to kg (mcf)
milligram0.000001
gram0.001
kilogram1
tonne1000
pound0.45359237
ounce0.02834952313

Note: The conversion factors shown above are exact values by international definition. The pound (0.45359237 kg) was standardized in 1959, and the US gallon (0.003785411784 m³) is defined exactly as 231 cubic inches. The varying number of decimal places reflects each unit's official definition, not measurement precision.

Data Sources & References

Material density data and descriptions are compiled from authoritative sources:

  1. Mass, Weight, Density or Specific Gravity of Liquids - Simetric
    Comprehensive database of liquid densities and specific gravities
  2. Mass, Weight, Density or Specific Gravity of Water at Various Temperatures - Simetric
    Temperature-dependent water density data
  3. Volume to Weight conversions for common substances and materials - aqua-calc.com
    Author: Aqua-Calc Team, Published: 2023
  4. CRC Handbook of Chemistry and Physics - Chemical and physical properties
    Comprehensive reference for chemical compounds and material properties
  5. ASTM International - Standards for materials testing
    Technical standards for chemicals, liquids, and construction materials
  6. ISO Standards - International material standards
    International Organization for Standardization - Material properties
  7. NIST (National Institute of Standards and Technology) - Measurement standards
    Official US standards for weights, measures, and physical constants
  8. NIST Chemistry WebBook - Thermophysical properties
    Database of chemical and physical property data for chemical compounds

FAQs on ethanol weight to volume conversion

1 milliliter of ethanol equals how many grams?

1 milliliter of ethanol is equivalent 0.783 grams.

How much is 0.783 grams of ethanol in milliliters?

0.783 grams of ethanol equals 1 milliliter.

Why do chemical substance conversions vary?

Chemical substance conversions vary because different substances have different densities. For example, a liter of water weighs more than a liter of ethanol because water is denser. Temperature and pressure can also affect density measurements.

Should I measure substances by weight or volume?

Measuring by weight is more accurate than measuring by volume, especially in chemistry and laboratory work. Scientists prefer weight measurements because they are consistent and reproducible regardless of temperature or pressure variations.