Difference between revisions of "Density"
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| style="text-align:center;"| Zinc sulfate (hexahydrate) | | style="text-align:center;"| Zinc sulfate (hexahydrate) | ||
| style="text-align:center;"| 2,072 | | style="text-align:center;"| 2,072 | ||
+ | | style="text-align:center;"| | ||
+ | |- | ||
+ | | style="text-align:center;"| Manganese(II) sulfate (tetrahydrate) | ||
+ | | style="text-align:center;"| 2,107 | ||
| style="text-align:center;"| | | style="text-align:center;"| | ||
|- | |- | ||
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| style="text-align:center;"| 2,942 | | style="text-align:center;"| 2,942 | ||
| style="text-align:center;"| At boiling point | | style="text-align:center;"| At boiling point | ||
+ | |- | ||
+ | | style="text-align:center;"| Manganese(II) sulfate (monohydrate) | ||
+ | | style="text-align:center;"| 2,950 | ||
+ | | style="text-align:center;"| | ||
|- | |- | ||
| style="text-align:center;"| Calcium sulfate (anhydrous) | | style="text-align:center;"| Calcium sulfate (anhydrous) | ||
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| style="text-align:center;"| 3,250 | | style="text-align:center;"| 3,250 | ||
| style="text-align:center;"| At 20 °C | | style="text-align:center;"| At 20 °C | ||
+ | |- | ||
+ | | style="text-align:center;"| Manganese(II) sulfate (anhydrous) | ||
+ | | style="text-align:center;"| 3,250 | ||
+ | | style="text-align:center;"| | ||
|- | |- | ||
| style="text-align:center;"| Diiodomethane | | style="text-align:center;"| Diiodomethane |
Revision as of 20:08, 27 February 2016
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The term density is the mass of a substance per unit volume. The symbol most often used for density is ρ, and sometimes the letter D can also be used. Mathematically, density is defined as mass divided by volume:
- ρ = m/V
Where m = mass of the substance, V = volume.
Density is measured in g/cm3 or kg/m3.
The density of a substance is influenced by a variety of factors, such as pressure or temperature. They have little influence for most solid materials, but there's a significant effect on the density of solids and liquids.
Density is calculated depending on the type of material:
- Homogeneous materials: The density at all regions of a homogeneous object equals its total mass divided by its total volume.
- Heterogeneous materials: The density varies between different regions of the object. The density of heterogeneous materials is calculated by determining the densities of many small volumes around various locations of the said material.
- Non-compact materials: Materials such as flakes, pellets, granules or powders contain voids, such as air, water or other fluids. The density of such materials is determined by multiple methods, such as pycnometer method or mathematical expressions for various geometric shapes.
Contents
- 1 List of densities
- 1.1 Common densities
- 1.2 Density of materials at different temperatures
- 1.2.1 Air
- 1.2.2 Ammonia
- 1.2.3 Ammonium acetate
- 1.2.4 Argon
- 1.2.5 Carbon dioxide
- 1.2.6 Carbon disulfide
- 1.2.7 Carbon monoxide
- 1.2.8 Carbon tetrachloride
- 1.2.9 Chloroform
- 1.2.10 Helium
- 1.2.11 Hydrazine
- 1.2.12 Hydrogen
- 1.2.13 Ice
- 1.2.14 Methane
- 1.2.15 Manganese heptoxide
- 1.2.16 Methanol
- 1.2.17 NaK
- 1.2.18 Naphthalene
- 1.2.19 Nitrogen
- 1.2.20 Oxygen
- 1.2.21 Potassium hydroxide
- 1.2.22 Silver nitrate
- 1.2.23 Water
- 2 References
List of densities
Common densities
Material | Density (kg/m3) | Notes |
---|---|---|
Hydrogen | 0.08988 | At 0 °C and 101.325 kPa |
Helium | 0.146 | At 300 K and 101.325 kPa |
Aerographite | 0.2 | The air inside is excluded |
Ammonia (gas) | 0.73 | At 1.013 bar at 15 °C |
Neon (gas) | 0.9 | At 0 °C and 101.325 kPa |
Metallic microlattice | 0.9 | The air inside is excluded |
Aerogel | 1.0 | The air inside is excluded |
Ethane (gas) | 1.0493 | At 0 °C and 101.325 kPa |
Acetylene (gas) | 1.106 | At 15 °C[1] |
Carbon monoxide (gas) | 1.145 | At 25 °C, 1 atm |
Nitrogen (gas) | 1.251 | At 0 °C and 101.325 kPa |
Air | 1.29 | At 0 °C and 101.325 kPa |
Oxygen (gas) | 1.308 | At 300 K (27 °C) |
Hydrogen sulfide (gas) | 1.363 | At standard conditions |
Phosphine (gas) | 1.379 | At 25 °C |
Hydrogen chloride (gas) | 1.693 | At standard conditions[2] |
Fluorine (gas) | 1.696 | 0 °C and 101.325 kPa |
Argon (gas) | 1.784 | 0 °C and 101.325 kPa |
Nitrous oxide (gas) | 1.8724 | At 15 °C and 1.013 bar |
Carbon dioxide (gas) | 1.977 | At 1 atm and 0 °C |
Propane (gas) | 2.0098 | At 0 °C, 101.3 kPa |
Ozone (gas) | 2,144 | At 0 °C |
Butane (gas) | 2.489 | n-Butane, at 20 °C and 1.013 bar |
Sulfur dioxide (gas) | 2.619 | At standard conditions |
Hydrogen iodide (gas) | 2.85 | At −47 °C |
Chlorine (gas) | 3.2 | 0 °C and 101.325 kPa |
Krypton (gas) | 3.749 | 0 °C and 101.325 kPa |
Phosgene (gas) | 4,248 | At 15 °C |
Xenon (gas) | 5.894 | 0 °C and 101.325 kPa |
Sulfur hexafluoride (gas) | 6.164 | At 1 bar and 20 °C |
Radon (gas) | 9.73 | 0 °C and 101.325 kPa |
Tungsten hexafluoride (gas) | 12.4 | Standard conditions |
Freon 12 (gas) | 36.83 | Standard conditions |
Hydrogen (liquid) | 70 | At –255 °C |
Styrofoam | 75 | Average type of styrofoam |
Hydrogen (slush) | 85 | At -259 °C |
Hydrogen (solid) | 86 | At <−259.14 °C |
Helium (liquid) | 147 | At 4 K |
Cork | 240 | Average type of cork |
Alfalfa (ground) | 256 | [3] |
Pine | 373 | |
Asbestos fibers | 400 | |
Grain (oat) | 410 | |
Methane (liquid) | 422.62 | At 111.5 K |
Ethane (liquid) | 446 | At 0 °C and 101.325 kPa |
Lithium | 535 | |
Corn starch (loosely packed) | 540 | Negligible moisture |
Grain (rice, rough) | 580 | |
Propane (liquid) | 590 | At -50 °C |
Grain (barley) | 620 | |
Pentane | 626.2 | n-Pentane, at 20 °C |
Corn starch (tightly packed) | 630 | Negligible moisture |
Grain (millet) | 640 | |
Hexane | 659 | n-Hexane, at 20 °C |
Ammonia (liquid) | 681.9 | At boiling point |
Heptane | 683.8 | n-Heptane, at 20 °C |
Isopropylamine | 689.1 | At 20 °C |
2,2,4-Trimethylpentane | 691.94 | At 20°C[4] |
Acetylene (liquid) | 693 | At atmospheric pressure |
Wood | 700 | Seasoned, typical |
Octane | 703 | n-octane, at 20 °C |
Oak | 710 | |
Diethyl ether | 713.4 | At 20 °C |
Nonane | 718 | n-nonane, at 20 °C |
Grain (rye) | 720 | |
Grain (corn, shelled) | 720 | |
Aluminium silicate | 721 | |
Diisopropyl ether | 725.8 | At 20 °C |
Triethylamine | 727.5 | At 20 °C |
Decane | 730 | n-decane, at 20 °C |
Methyl tert-butyl ether | 740.5 | At 20 °C |
Grain (rice, hulled) | 750 | |
Alum (pulverized) | 753 | |
Di-tert-butyl ether | 764.2 | At 20 °C[5] |
Dibutyl ether | 768.27 | At 20 °C[6] |
Grain (flax) | 770 | |
Grain (wheat) | 770 | |
RP-1 | 773 | At 25°C |
Cyclohexane | 778.1 | At 20°C |
Lithium hydride | 780 | [7] |
Unsymmetrical dimethylhydrazine | 783 | At 25°C |
Acetonitrile | 786 | Anhydrous, at 25 °C[8] |
Isopropanol | 786 | Anhydrous, at 20 °C |
Carbon monoxide (liquid) | 789 | At boiling point |
Ethanol | 789 | Anhydrous, at 20 °C |
Acetone | 790 | |
Methanol | 791.5 | Anhydrous, at 20 °C |
Diesel | 800 | At standard conditions |
Isobutanol | 802 | Anhydrous, at 20 °C |
Gasoline | 803 | Average type, standard conditions |
Propanol | 805.3 | n-Propanol, at 20 °C |
Methyl ethyl ketone | 806 | Anhydrous, at 20 °C |
Nitrogen (liquid) | 808 | At boiling point |
Butanol | 809.8 | n-Butanol, at 20 °C |
Kerosene | 810 | At standard conditions, standard composition |
Formaldehyde | 815.3 | At −20 °C |
2-Octanone | 820 | At 20 °C[9] |
Lithium-6 deuteride | 820 | |
UH25 | 829 | At 25°C |
Limonene | 841.1 | Average, at 20°C |
α-Pinene | 858 | At 20 °C |
Potassium | 860 | |
Xylene (mixture) | 860 | Mixture of isomers, at 20°C |
Xylene (para) | 861.04 | At 20°C |
Octyl acetate | 863 | |
Xylene (meta) | 864 | At 20°C |
NaK (eutectic) | 866 | At 20°C; 77% K and 23% Na |
Isopropyl nitrite | 868.4 | |
Toluene | 867 | At 20°C |
Benzene | 870 | At standard conditions |
Monomethylhydrazine | 874 | At 20°C |
Hexamethylene triperoxide diamine | 880 | |
Xylene (orto) | 880.1 | At 20°C |
Alum (lumpy) | 881 | |
Butyl acetate | 882.5 | n-Butyl acetate, at 20°C[10] |
Ethylene oxide | 882.6 | At 10°C |
Tetrahydrofuran | 887.49 | At 20°C |
Menthol | 890 | Racemic or (−)-isomer |
Ethylenediamine | 900 | At 20°C |
Grain (corn, ear) | 900 | |
Aerozine 50 | 900 | At 25°C |
Ethyl acetate | 900.3 | At 20 °C[11] |
Mayonnaise (traditional) | 910 | Traditional recipe |
Butter | 911 | |
Peanut oil | 914 | |
Palm oil | 915 | |
Trimethyl borate | 915 | At standard conditions |
Ice | 916.7 | At 0 °C |
Lithium aluminium hydride | 917 | |
Olive oil | 918 | |
Body fat | 918 | |
Lard | 919 | |
Corn oil | 922 | |
Coconut oil | 924 | |
Soya oil | 927 | |
Nitrous oxide (liquid) | 931 | At 0 °C at 31.1 bar |
Curcumin | 934.8 | At 15 ºC |
Dimethylformamide | 945 | At 20 ºC |
Sodium | 970 | |
Methyl formate | 977 | At 20 °C |
Pyridine | 982.72 | At 20 °C |
Hydrogen fluoride (liquid) | 990 | At 19.5 °C |
Silicone | 993 | |
Milk (cow, heavy cream) | 994 | |
Mayonnaise (light) | 1,000 | |
Water | 1,000 | At 4 °C |
Chloric acid | 1,000 | Estimated |
Saline water | 1,004 | (0.9% NaCl) |
Phenol | 1,007 | |
Pilsner (beer) | 1,008 | At standard conditions |
Hydrazine | 1,008.5 | At 20 °C |
Nicotine | 1,009.25 | At 20 °C |
Milk (cow, light cream) | 1,012 | |
Aniline | 1,021.7 | At 20 °C |
Sea water | 1,025 | Average density at the surface |
Naphthalene | 1,025.3 | At 20 °C |
Milk (cow, whole) | 1,030 | At 20 °C |
1,4-Dioxane | 1,032.9 | At 20 °C[12] |
Milk (cow, skim) | 1,033 | |
Blood | 1,035 | |
Propylene glycol | 1,036.1 | At 20 °C |
Acetic acid | 1,050 | |
Skin | 1,050 | |
Human body (average) | 1,062 | |
Acetic anhydride | 1,082 | At 20 °C[13] |
Formalin | 1,090 | 37% aqueous solution, at 25 °C |
Hydrazoic acid | 1,090 | At 25 °C |
Safrole | 1,100 | |
Dimethyl sulfoxide | 1,100.4 | At 20 °C |
Carbon dioxide (liquid) | 1,101 | Liquid, at −37°C (saturation) |
Peracetic acid | 1,103.7 | At 20 °C[14] |
Sodium hypochlorite | 1,110 | |
Ethylene glycol | 1,115 | At 20 ºC |
Nitromethane | 1,137.1 | At 20 ºC[15] |
Hydrogen fluoride (gas) | 1,150 | At 25 °C |
Hydrofluoric acid | 1,150 | At 20 °C, 48% w/w aqueous solution |
Nylon | 1,150 | |
Oxygen (liquid) | 1,155 | |
Furfural | 1,159.4 | At 20 °C |
2-Nitrotoluene | 1,161.1 | At 19°C |
Ammonium acetate | 1,170 | At 20 °C |
Benzocaine | 1,170 | |
Plastics | 1,175 | Approx. for PP, PETE and PVC |
Methyl salicylate | 1,184 | At 25 °C |
Hydrochloric acid | 1,189 | At 20 °C, 38% w/w aqueous solution |
Propylene carbonate | 1,190 | At 20 °C[16] |
Methanediol | 1,199 | |
Neon (liquid) | 1,207 | At boiling point |
Methyl nitrate | 1,207.5 | At 20 °C[17] |
Acetone peroxide | 1,220 | Trimer[18] |
Formic acid | 1,220 | At 20 °C |
Caffeine | 1,230 | |
Nitrocellulose | 1,230 | |
1,2-Dichloroethane | 1,253.1 | At 20 °C[19] |
Glycerol | 1,261 | Standard conditions |
Carbon disulfide | 1,263.2 | At 20 °C[20] |
Aluminium chloride (hexahydrate) | 1,300 | |
Freon 12 (liquid) | 1,311 | Pressurized |
Cellulose acetate fibers | 1,320 | [21] |
Urea | 1,320 | |
Dichloromethane | 1,326.6 | At 20 °C |
Hexamine | 1,330 | |
Hydrazine sulfate | 1,378 | [22] |
Corn syrup | 1,380 | |
Argon (liquid) | 1,395.4 | At boiling point |
Pentaerythritol | 1,396 | |
Acetylsalicylic acid | 1,400 | |
Sulfur dioxide (liquid) | 1,400 | At -10 °C |
Urea peroxide | 1,400 | |
Chlorobutanol | 1,404 | |
Ethylene glycol dinitrate[23] | 1,419.8 | At 20 ºC |
Honey | 1,420 | |
Phosgene (liquid) | 1,432 | At 0 °C |
Boric acid | 1,435 | |
Nitrogen dioxide (liquid) | 1,440 | At 20 °C |
Salycilic acid | 1,443 | At 20 °C |
Dinitrogen tetroxide | 1,445 | At 20 °C |
Dextrin | 1,450 | Average |
Hydrogen peroxide | 1,450 | Pure, at 20 °C |
Erythritol | 1,450 | |
Sodium acetate (trihydrate) | 1,450 | At 20 °C |
Lithium hydroxide (anhydrous) | 1,460 | |
Sodium carbonate (decahydrate) | 1,460 | |
Rubidium (liquid) | 1,460 | At melting point |
Sodium sulfate (decahydrate) | 1,464 | |
Trichloroethylene | 1,464.2 | At 20 °C |
Biuret | 1,467 | |
Sodium metabisulfite | 1,480 | |
Chloroform | 1,483.2 | At 20 °C[24] |
Sorbitol | 1,489 | |
Hydrobromic acid | 1,490 | 48% w/w aqueous solution |
Cellulose | 1,500 | |
Fuming nitric acid | 1,500 | |
Fluorine (liquid) | 1,505 | At boiling point |
Calcium acetate | 1,509 | |
Lithium hydrate (monohydrate) | 1,510 | |
Sodium carbonate (heptahydrate) | 1,510 | |
Magnesium sulfate (undecahydrate) | 1,512 | |
Xylitol | 1,520 | |
Sodium acetate (anhydrous) | 1,528 | At 20 °C |
Rubidium | 1,532 | At room temperature |
Citric acid (monohydrate) | 1,542 | At 18 °C |
Sucrose | 1,550 | |
Calcium | 1,550 | |
Carbon dioxide (solid) | 1,562 | Dry ice, at at 1 atm and −78.5 °C |
Chlorine (liquid) | 1,562.5 | At boiling point |
Magnesium chloride (hexahydrate) | 1,569 | |
Zinc peroxide | 1,570 | |
Cellulose II | 1,580 | Crystal[25] |
Ammonium bicarbonate | 1,586 | |
Nitroglycerin | 1,593.1 | At 20 °C[26] |
Carbon tetrachloride | 1,594 | At 20 °C |
Fluorescein | 1,602 | |
Ozone (liquid) | 1,614 | At -195.4 °C |
Aluminium sulfate (octahydrate) | 1,620 | |
Monosodium glutamate | 1,620 | At 20 °C |
Sulfur dichloride | 1,621 | |
Tetrachloroethylene | 1,622 | Standard conditions |
Ascorbic acid | 1,650 | |
Nitrogen trichloride | 1,653 | [27] |
Oxalic acid (dihydrate) | 1,653 | |
Trinitrotoluene | 1,654 | 2,4,6-trinitrotoluene |
Citric acid (anhydrous) | 1,665 | |
Sodium thiosulfate | 1,667 | |
Carbonic acid | 1,668 | |
Calcium gluconate (pentahydrate) | 1,674 | [28] |
Magnesium sulfate (heptahydrate) | 1,680 | |
Phosphoric acid (85%) | 1,685 | Aqueous solution |
Disulfur dichloride | 1,688 | |
Lead(II) acetate (decahydrate) | 1,690 | |
Urea nitrate | 1,690 | |
Fructose | 1,694 | |
Chromium(III) sulfate (octadecahydrate) | 1,709 | |
Calcium chloride (hexahydrate) | 1,710 | |
Aluminium nitrate (nonahydrate) | 1,720 | |
Ammonium nitrate | 1,725 | At 20 °C |
Borax | 1,730 | |
Magnesium | 1,740 | |
Picric acid | 1,763 | |
Perchloric acid | 1,770.3 | Anhydrous, at 20 °C |
Potassium sodium tartrate | 1,790 | |
Prussian blue | 1,800 | [29] |
Iron(III) chloride (hexahydrate) | 1,820 | |
White phosphorus | 1,823 | |
Erythritol tetranitrate | 1,827 | Crystal density[30] |
Sulfuric acid (98%) | 1,830 | |
Calcium chloride (tetrahydrate) | 1,830 | |
Cesium (liquid) | 1,843 | At melting point |
Sodium azide | 1,846 | At 20 °C |
Calcium chloride (dihydrate) | 1,850 | |
Beryllium | 1,850 | |
Chromium(III) sulfate (pentadecahydrate) | 1,860 | |
Francium | 1,870 | Predicted, at room temperature |
Phosphoric acid (liquid) | 1,885 | Aqueous solution |
Iron(II) sulfate (heptahydrate) | 1,895 | |
Calcium nitrate (tetrahydrate) | 1,896 | |
Iron(III) sulfate (pentahydrate) | 1,898 | |
Oxalic acid (anhydrous) | 1,900 | |
Bone | 1,900 | Average human bone |
2,4-Dinitrobromobenzene | 1,910 | |
Sulfur (gamma) | 1,920 | |
Sulfur trioxide | 1,920 | Liquid |
Cobalt(II) chloride (hexahydrate) | 1,924 | |
Cesium | 1,930 | At room temperature |
Iron(II) sulfate (hexahydrate) | 1,934 | |
Nickel(II) sulfate (heptahydrate) | 1,948 | |
Sulfur (beta) | 1,960 | |
Potassium chloride | 1,984 | |
Oleum (60%) | 2,000 | |
Sodium perchlorate (monohydrate) | 2,020 | |
Aluminium sulfide | 2,020 | |
Phosphoric acid (solid) | 2,030 | At 25 °C |
Potassium hydroxide | 2,044 | At 20 °C |
Lithium chloride | 2,068 | |
Copper(II) nitrate (hexahydrate) | 2,070 | |
Nickel(II) sulfate (hexahydrate) | 2,070 | |
Sulfur (alfa) | 2,070 | |
Zinc sulfate (hexahydrate) | 2,072 | |
Manganese(II) sulfate (tetrahydrate) | 2,107 | |
Potassium nitrate | 2,109 | |
Lithium carbonate | 2,110 | |
Sodium hydroxide | 2,130 | |
Pyranine | 2,150 | |
Calcium chloride (anhydrous) | 2,150 | |
Iron(II) sulfate (pentahydrate) | 2,150 | |
Sodium chloride | 2,165 | |
Potassium peroxymonosulfate | 2,170 | Oxone |
Trichloroisocyanuric acid | 2.19 | ± 0.1 g/cm3 |
Sodium bicarbonate | 2,200 | |
Polytetrafluoroethylene | 2,200 | |
Calcium hydroxide | 2,211 | |
Calcium carbide | 2,220 | |
Lead(IV) acetate | 2,228 | At 17 °C |
Borosilicate glass | 2,230 | Average value |
Tin(IV) chloride | 2,230 | |
Peroxymonosulfuric acid | 2,239 | |
Calcium chloride (monohydrate) | 2,240 | |
Sodium carbonate (monohydrate) | 2,250 | |
Sodium nitrate | 2,257 | |
Zinc perchlorate | 2,260 | |
Graphite | 2,266 | |
Copper(II) sulfate (pentahydrate) | 2,286 | |
Copper(II) nitrate (trihydrate) | 2,320 | |
Calcium sulfate (dihydrate) | 2,320 | |
Magnesium chloride (anhydrous) | 2,320 | |
Potassium chlorate | 2,320 | |
Silicon | 2,330 | |
Potassium metabisulfite | 2,340 | |
Red phosphorus | 2,340 | |
Boron | 2,340 | |
Magnesium hydroxide | 2,344.6 | |
Calcium hypochlorite | 2,350 | At 20 °C |
Violet phosphorus | 2,360 | |
Strontium (liquid) | 2,375 | At melting point |
Lithium nitrate (anhydrous) | 2,380 | |
Phosphorus pentoxide | 2,390 | |
Manganese heptoxide | 2,396 | At 20 °C[31] |
Concrete | 2,400 | Average density |
Krypton (liquid) | 2,413 | At boiling point |
Potassium carbonate | 2,430 | |
Magnesium sulfate (monohydrate) | 2,445 | |
Boron trioxide (liquid) | 2,460 | At melting point |
Potassium persulfate | 2,477 | |
Cobalt(II) chloride (dihydrate) | 2,477 | |
Aluminium chloride (anhydrous) | 2,480 | |
Sodium perchlorate (anhydrous) | 2,499.4 | |
Calcium nitrate (anhydrous) | 2,504 | |
Copper(II) chloride (dihydrate) | 2,510 | |
Potassium perchlorate | 2,523.9 | |
Sodium carbonate (anhydrous) | 2,540 | At 25 °C |
Lead(II) acetate (trihydrate) | 2,550 | |
Boron trioxide (trigonal) | 2,550 | |
Potassium antimonyl tartrate | 2,600 | |
Quartz | 2,600 | |
Sodium silicate | 2,610 | |
Strontium | 2,640 | At room temperature |
Calcium perchlorate | 2,651 | |
Magnesium sulfate (anhydrous) | 2,660 | |
Potassium sulfate | 2,660 | |
Sodium sulfate (anhydrous) | 2,664 | |
Aluminium sulfate (anhydrous) | 2,672 | |
Potassium dichromate | 2,676 | |
Black phosphorus | 2,690 | |
Aluminium | 2,700 | |
Potassium permanganate | 2,703 | |
Tin(II) chloride (dihydrate) | 2,710 | |
Calcium carbonate | 2,711 | Calcite |
Potassium bromide | 2,740 | |
Sodium bisulfate | 2,740 | |
Potassium manganate | 2,780 | |
Scandium (liquid) | 2,800 | At melting point |
Sodium peroxide | 2,805 | |
Potassium ferrate | 2,829 | [32] |
Calcium carbonate | 2,830 | Aragonite |
Chloroauric acid (tetrahydrate) | 2,890 | |
Iron(III) chloride (anhydrous) | 2,898 | |
Zinc chloride | 2,907 | |
Xenon (liquid) | 2,942 | At boiling point |
Manganese(II) sulfate (monohydrate) | 2,950 | |
Calcium sulfate (anhydrous) | 2,960 | |
Scandium | 2,985 | At room temperature |
Iron(II) sulfate (monohydrate) | 3,000 | |
Copper(II) nitrate (anhydrous) | 3,050 | |
Iron(III) sulfate (anhydrous) | 3,097 | |
Chromium(III) sulfate (anhydrous) | 3,100 | |
Bromine | 3,102.8 | Standard conditions |
Potassium iodide | 3,123 | |
Boron trioxide (monoclinic) | 3,146 | |
Barium chlorate | 3,180 | |
Calcium fluoride | 3,180 | |
Silicon carbide | 3,210 | All polytypes[33] |
Barium nitrate | 3,240 | |
Lead(II) acetate (anhydrous) | 3,250 | At 20 °C |
Manganese(II) sulfate (anhydrous) | 3,250 | |
Diiodomethane | 3,325 | |
Barium (liquid) | 3,338 | At melting point |
Calcium oxide | 3,340 | |
Vanadium pentoxide | 3,357 | |
Copper(II) hydroxide | 3,368 | |
Copper(II) chloride (anhydrous) | 3,386 | |
Zinc chromate | 3,430 | |
Cobalt(II) chloride (anhydrous) | 3,560 | |
Copper oxychloride | 3,500 | |
Diamond | 3,510 | |
Barium | 3,530 | At room temperature |
Zinc sulfate (anhydrous) | 3,540 | |
Chevreul's salt | 3,570 | [34] |
Copper(II) sulfate (anhydrous) | 3,600 | |
Iron(II) sulfate (anhydrous) | 3,650 | |
Caesium hydroxide | 3,675 | |
Strontium carbonate | 3,740 | |
Titanium dioxide | 3,780 | Anatase form |
Chloroauric acid (anhydrous) | 3,900 | |
Tin(II) chloride (anhydrous) | 3,950 | |
Zinc phosphate | 3,998 | |
Aluminium oxide | 4,000 | Average density |
Basic copper carbonate | 4,000 | |
Iodoform | 4,008 | |
Nickel(II) sulfate (anhydrous) | 4,010 | |
Zinc sulfide | 4,090 | |
Copper(I) chloride | 4,145 | |
Titanium dioxide | 4,180 | Brookite |
Titanium dioxide | 4,230 | Rutile form |
Yttrium (liquid) | 4,240 | At melting point |
Barium carbonate | 4,286 | |
Nitrogen triiodide | 4,300 | ±0.1 g/cm3[35] |
Carbon tetraiodide | 4,320 | |
Silver nitrate | 4,350 | At 24 °C |
Zinc carbonate | 3.398 | At 20 °C[36] |
Radon (liquid) | 4,400 | At boiling point |
Yttrium | 4,472 | |
Copper chromite | 4,500 | |
Caesium iodide | 4,510 | |
Lead(II) nitrate | 4,530 | |
Titanium | 4,540 | |
Tungsten hexafluoride (solid) | 4,560 | At −9 °C |
Strontium oxide | 4,700 | |
Selenium | 4,800 | |
Barium manganate | 4,850 | |
Barium iodide (dihydrate) | 4,916 | |
Iodine | 4,933 | |
Iron(II,III) oxide | 5,000 | |
Manganese dioxide | 5,026 | |
Barium iodide (anhydrous) | 5,150 | |
Cobalt(III) oxide | 5,180 | |
Chromium(III) oxide | 5,220 | |
Iron(III) oxide | 5,242 | |
Germanium | 5,323 | |
Radium | 5,500 | At room temperature |
Zinc oxide | 5,610 | |
Arsenic | 5,727 | |
Bismuth(III) iodide | 5,778 | |
Zirconium (liquid) | 5,800 | At melting point |
Gallium | 5,910 | At room temperature |
Lanthanum (liquid) | 5,940 | At melting point |
Copper(I) oxide | 6,000 | |
Gallium (liquid) | 6,095 | At melting point |
Vanadium | 6,100 | |
Basic lead chromate | 6,120 | |
Lead chromate | 6,120 | |
Lead(II) iodide | 6,160 | |
Lanthanum | 6,162 | At room temperature |
Ytterbium (liquid) | 6,210 | At room temperature |
Tellurium | 6,240 | |
Copper(II) oxide | 6,310 | |
Astatine | 6,350 | Predicted, at room temperature |
Praseodymium (liquid) | 6,500 | At melting point |
Zirconium | 6,520 | |
Cerium (liquid) | 6,550 | At melting point |
Antimony | 6,690 | |
Cerium | 6,770 | At room temperature |
Praseodymium | 6,770 | At room temperature |
Neodymium (liquid) | 6,890 | At melting point |
Ytterbium | 6,900 | At room temperature |
Zinc | 7,000 | |
Neodymium | 7,010 | At room temperature |
Indium (liquid) | 7,020 | At melting point |
Europium (liquid) | 7,130 | At melting point |
Samarium (liquid) | 7,160 | At melting point |
Chromium | 7,200 | |
Promethium | 7,260 | At room temperature |
Europium | 7,264 | At room temperature |
Indium | 7,310 | At room temperature |
Tin | 7,310 | |
Manganese | 7,325 | |
Gadolinium (liquid) | 7,900 | At melting point |
Samarium | 7,520 | At room temperature |
Terbium (liquid) | 7,650 | At melting point |
Iron | 7,780 | |
Gadolinium | 7,900 | At room temperature |
Terbium(III) oxide | 7,910 | |
Terbium | 8,230 | At room temperature |
Lead(II,IV) oxide | 8,300 | |
Holmium (liquid) | 8,340 | At melting point |
Dysprosium (liquid) | 8,370 | At melting point |
Dysprosium | 8,540 | At room temperature |
Thulium (liquid) | 8,560 | At melting point |
Niobium | 8,570 | |
Brass | 8,600 | |
Cadmium | 8,650 | |
Holmium | 8,790 | At room temperature |
Einsteinium | 8,840 | At room temperature |
Erbium (liquid) | 8,860 | At melting point |
Bismuth trioxide | 8,900 | |
Cobalt | 8,900 | |
Nickel | 8,900 | |
Copper | 8,940 | |
Erbium | 9,066 | At room temperature |
Polonium (alpha) | 9,196 | |
Lutetium (liquid) | 9,300 | At melting point |
Thulium | 9,320 | At room temperature |
Polonium (beta) | 9,398 | |
Lead(II) oxide | 9,530 | |
Bismuth | 9,750 | |
Lutetium | 9,841 | At room temperature |
Actinium | 10,000 | At room temperature |
Molybdenum | 10,220 | |
Silver | 10,500 | |
Technertium | 11,000 | |
Thallium (liquid) | 11,220 | At melting point |
Lead | 11,340 | |
Thorium | 11,700 | |
Thallium | 11,850 | At room temperature |
Hafnium (liquid) | 12,000 | At melting point |
Americium | 12,000 | At room temperature |
Palladium | 12,023 | |
Rhodium | 12,410 | |
Ruthenium | 12,450 | |
Berkelium (beta) | 13,250 | At room temperature |
Hafnium | 13,310 | At room temperature |
Curium | 13,510 | At room temperature |
Mercury | 13,546 | |
Berkelium (alpha) | 14,780 | At room temperature |
Californium | 15,100 | At room temperature |
Protactinium | 15,370 | At room temperature |
Tungsten carbide | 15,600 | |
Tantalum | 16,600 | |
Neptunium (gamma) | 18,000 | At 639 °C |
Uranium | 18,900 | |
Tungsten | 19,250 | |
Gold | 19,320 | |
Neptunium (beta) | 19,360 | At 313 °C |
Plutonium | 19,840 | |
Neptunium (alpha) | 20,450 | At 282 °C |
Rhenium | 21,020 | |
Platinum | 21,450 | |
Iridium | 22,420 | |
Osmium | 22,570 | |
Rutherfordium | 23,200 | Predicted, at room temperature |
Copernicium | 23,700 | Predicted, at room temperature |
Roentgenium | 28,700 | Predicted, at room temperature |
Dubnium | 29,300 | Predicted, at room temperature |
Darmstadtum | 34,800 | Predicted, at room temperature |
Seaborgium | 35,000 | Predicted, at room temperature |
Bohrium | 37,100 | Predicted, at room temperature |
Meitnerium | 37,400 | Predicted, at room temperature |
Hassium | 40,700 | Predicted, at room temperature |
Density of materials at different temperatures
Air
Temperature (°C) | Density (kg/m3) |
---|---|
+727 | 0.340 |
+227 | 0.696 |
+35 | 1.146 |
+30 | 1.164 |
+27 | 1.161 |
+25 | 1.184 |
+20 | 1.204 |
+15 | 1.225 |
+10 | 1.247 |
+5 | 1.269 |
0 | 1.293 |
-5 | 1.316 |
-10 | 1.342 |
-15 | 1.368 |
-20 | 1.395 |
-25 | 1.423 |
-73 | 1.746 |
-173 | 3.556 |
Ammonia
Temperature (°C) | Density (kg/m3) |
---|---|
+25 °C | 1,073 |
+20 °C | 1,170 |
Ammonium acetate
Temperature (°C) | Density (kg/m3) |
---|---|
+15 °C | 0.73 |
0 °C | 0,769 |
-33.34 | 0.86 |
-33.3 | 681.9 |
-80 °C | 817 |
Argon
Temperature (°C) | Density (kg/m3) |
---|---|
+27 | 1.449 |
0 | 1.784 |
-185 | 1,395.4 |
Carbon dioxide
Temperature (°C) | Density (kg/m3) |
---|---|
+25 | 1.799 |
-78 | 1,562 |
Carbon disulfide
Temperature (°C) | Density (kg/m3) |
---|---|
+25 | 1,262 |
+20 | 1,263.2 |
0 | 1,292.7 |
-186 | 1,539 |
Carbon monoxide
Temperature (°C) | Density (kg/m3) |
---|---|
+25 | 1.145 |
0 | 1.250 |
-191.5 | 789 |
Carbon tetrachloride
Temperature (°C) | Density (kg/m3) |
---|---|
+20 | 1,594 |
-80 | 1,809 |
-186 | 1,831 |
Chloroform
Temperature (°C) | Density (kg/m3) |
---|---|
+60 | 1,394 |
+25 | 1,488.5 |
+20 | 1,483.2 |
-20 | 1,564 |
Helium
Temperature (°C) | Density (kg/m3) |
---|---|
+27 | 0.164 |
0 | 0.1786 |
-269 | 147 |
Hydrazine
Temperature (°C) | Density (kg/m3) |
---|---|
+50 | 982 |
+25 | 1,004 |
+20 | 1,008.5 |
+15 | 1,014 |
0 | 1,021 |
Hydrogen
Temperature (°C) | Density (kg/m3) |
---|---|
+125 | 0.6061 |
+100 | 0.6465 |
+75 | 0.6928 |
+50 | 0.7461 |
+25 | 0.8085 |
0 | 0.08988 |
-25 | 0.9708 |
-50 | 1.0793 |
-75 | 1.2154 |
-100 | 1.3911 |
-125 | 1.6271 |
-150 | 1.9617 |
-175 | 2.4760 |
-200 | 3.3817 |
-225 | 5.5430 |
-250 | 68.747 |
-255 | 74.252[37] |
Ice
Temperature (°C) | Density (kg/m3) |
---|---|
0 | 916 |
-50 | 922 |
-100 | 927 |
Methane
Temperature (°C) | Density (kg/m3) |
---|---|
+25 | 0.656 |
-90 | 162 |
-161.65 | 422.62 |
Manganese heptoxide
Temperature (°C) | Density (kg/m3) |
---|---|
+20 | 2,396 |
-30 | 2,790 |
Methanol
Temperature (°C) | Density (kg/m3) |
---|---|
+25 | 786.6 |
+20 | 791.5 |
+15 | 796 |
NaK
Temperature (°C) | Density (kg/m3) |
---|---|
+100 | 855 |
+21 | 866 |
Naphthalene
Temperature (°C) | Density (kg/m3) |
---|---|
+100 | 962.5 |
+20 | 1,025.3 |
+15.5 | 1,145 |
Nitrogen
Temperature (°C) | Density (kg/m3) |
---|---|
+27 | 1.145 |
-199 | 808 |
Oxygen
Temperature (°C) | Density (kg/m3) |
---|---|
+27 | 1.308 |
-186 | 1,155 |
Potassium hydroxide
Temperature (°C) | Density (kg/m3) |
---|---|
+25 | 2,120 |
+20 | 2,044 |
Silver nitrate
Temperature (°C) | Density (kg/m3) |
---|---|
+210 | 3,970 |
+24 | 4,350 |
Water
Temperature (°C) | Density (kg/m3) |
---|---|
+100 | 958.4 |
+80 | 971.8 |
+60 | 983.2 |
+50 | 988.03 |
+40 | 992.2 |
+30 | 995.6502 |
+25 | 997.0479 |
+22 | 997.7735 |
+20 | 998.2071 |
+15 | 999.1026 |
+10 | 999.7026 |
+4 | 999.9720 |
0 | 999.8395 |
-10 | 998.117 |
-20 | 993.547 |
-30 | 983.854 |
The values below 0 °C refer to supercooled water.
References
- ↑ http://www.megs.ca/MSDS/Pdf/Acetylene.PDF
- ↑ O'Neil, M.J. (ed.). The Merck Index - An Encyclopedia of Chemicals, Drugs, and Biologicals. 13th Edition, Whitehouse Station, NJ: Merck and Co., Inc., 2001., p. 857
- ↑ http://www.simetric.co.uk/si_materials.htm
- ↑ Budavari, S. (ed.). The Merck Index - Encyclopedia of Chemicals, Drugs and Biologicals. Rahway, NJ: Merck and Co., Inc., 1989., p. 817
- ↑ Navolokina, R. A.; Zil'berman, E. N.; Journal of Organic Chemistry USSR (English Translation); (1980); p. 1382 -1386; Zhurnal Organicheskoi Khimii; vol. 16; Issue 8; (1980); p. 1629 - 1633
- ↑ Alonso, Victor; Gonzalez, Juan Antonio; Garcia De La Fuente, Isaias; Cobos, Jose Carlos; Thermochimica Acta; vol. 543; (2012); p. 246 - 253
- ↑ Lide, D. R., ed. (2005). CRC Handbook of Chemistry and Physics (86th ed.). Boca Raton (FL)
- ↑ http://www.sigmaaldrich.com/catalog/product/sial/271004
- ↑ Lewis, R.J. Sr.; Hawley's Condensed Chemical Dictionary 14th Edition. John Wiley & Sons, Inc. New York, NY 2001., p. 737
- ↑ Haynes, W.M. (ed.) CRC Handbook of Chemistry and Physics. 91st ed. Boca Raton, FL: CRC Press Inc., 2010-2011, p. 3-76
- ↑ Haynes, W.M. (ed.). CRC Handbook of Chemistry and Physics. 94th Edition. CRC Press LLC, Boca Raton: FL 2013-2014, p. 3-250
- ↑ O'Neil, M.J. (ed.). The Merck Index - An Encyclopedia of Chemicals, Drugs, and Biologicals. 13th Edition, Whitehouse Station, NJ: Merck and Co., Inc., 2001., p. 581
- ↑ Lide, DR (ed.). CRC Handbook of Chemistry and Physics. 81st Edition. CRC Press LLC, Boca Raton: FL 2000, p. 3-5
- ↑ Havel et al.; Chemicky Prumysl; vol. 10; (1960); p. 579
- ↑ Haynes, W.M. (ed.). CRC Handbook of Chemistry and Physics. 94th Edition. CRC Press LLC, Boca Raton: FL 2013-2014, p. 3-414
- ↑ Porras Gutierrez, Ana Gabriela; Zeitouny, Joceline; Gomila, Antoine; Douziech, Benedicte; Cosquer, Nathalie; Conan, Francoise; Reinaud, Olivia; Hapiot, Philippe; Le Mest, Yves; Lagrost, Corinne; Le Poul, Nicolas; Dalton Transactions; vol. 43; nb. 17; (2014); p. 6436 - 6445
- ↑ Cowley; Partington; Journal of the Chemical Society; (1933); p. 1252
- ↑ O'Neil, M.J. (ed.). The Merck Index - An Encyclopedia of Chemicals, Drugs, and Biologicals. Whitehouse Station, NJ: Merck and Co., Inc., 2006., p. 1649
- ↑ Lide, DR (ed.). CRC Handbook of Chemistry and Physics. 81st Edition. CRC Press LLC, Boca Raton: FL 2000, p. 3-154
- ↑ Lide, D.R. CRC Handbook of Chemistry and Physics 86TH Edition 2005-2006. CRC Press, Taylor & Francis, Boca Raton, FL 2005, p. 3-88
- ↑ Regenerated Cellulose Fibres, Calvin Woodings, Textile Institute (Manchester, England), 2001, p .212
- ↑ O'Neil, M.J. (ed.). The Merck Index - An Encyclopedia of Chemicals, Drugs, and Biologicals. 13th Edition, Whitehouse Station, NJ: Merck and Co., Inc., 2001., p. 852
- ↑ Lide, D.R. CRC Handbook of Chemistry and Physics 88TH Edition 2007-2008. CRC Press, Taylor & Francis, Boca Raton, FL 2007, p. 3-232
- ↑ EPA, 1998
- ↑ Regenerated Cellulose Fibres, Calvin Woodings, Textile Institute (Manchester, England), 2001, p .212
- ↑ de Kreuk; Recueil des Travaux Chimiques des Pays-Bas; vol. 61; (1942); p. 822
- ↑ Kafarov, V. V.; Dorokhov, I. N.; Vetokhin, V. N.; Volkov, L. P.; Doklady Physical Chemistry (Translation of the physical chemistry section of Doklady Akademii Nauk); vol. 314; (1990); p. 683 - 686
- ↑ Wieczorek; Blaszczyk; Krol; Acta Crystallographica, Section C: Crystal Structure Communications; vol. 52; nb. Pt 5;(1996); p. 1193-1198
- ↑ Lide, D.R. CRC Handbook of Chemistry and Physics 88TH Edition 2007-2008. CRC Press, Taylor & Francis, Boca Raton, FL 2007, p. 4-69
- ↑ https://www.researchgate.net/publication/260409695_Explosive_Properties_of_Erythritol_Tetranitrate
- ↑ Glemser, O.; Schroeder, H.; Zeitschrift fuer Anorganische und Allgemeine Chemie; vol. 271; (1953); p. 293 - 304
- ↑ Hoppe, Martin L.; Schlemper, E. O.; Murmann, R. K.; Acta Crystallographica, Section B: Structural Crystallography and Crystal Chemistry; vol. 38; (1982); p. 2237 - 2239
- ↑ Patnaik, P. (2002). Handbook of Inorganic Chemicals. McGraw-Hill
- ↑ Etard, A.; Comptes Rendus Hebdomadaires des Seances de l'Academie des Sciences; vol. 93; (1881); p. 725 - 727
- ↑ http://www.chemspider.com/Chemical-Structure.55511.html
- ↑ http://cameochemicals.noaa.gov/chemical/4804
- ↑ http://hydrogen.pnl.gov/hydrogen-data/hydrogen-density-different-temperatures-and-pressures