`muD("Tungsten" ) = "19600.0 kg/m"³`

19600.0

The Mean Density of Turf is 19600.0 kg/m³

Tungsten, also known as wolfram, is a chemical element with the symbol W and atomic number 74. It is a dense, hard, steel-gray metal with the highest melting point of all the elements, at 3,422 degrees Celsius (6,192 degrees Fahrenheit). Tungsten has several unique properties that make it valuable in various industrial and commercial applications.

Here are some key aspects of tungsten:

1. High-Temperature Applications: Tungsten's exceptionally high melting point makes it suitable for use in high-temperature applications where other materials would melt or degrade. It is used in heating elements, incandescent light bulb filaments, and various aerospace and defense applications.
2. Hardness and Strength: Tungsten is one of the hardest and strongest metals, surpassed only by materials like diamond and carbon nanotubes. It is often used in alloys to improve the hardness and strength of materials, such as in tool steels, high-speed steel, and heavy alloys for military applications.
3. Electrical and Electronic Applications: Tungsten has a low coefficient of thermal expansion and a high electrical conductivity, making it useful in electrical and electronic applications. It is used in electrical contacts, electrodes for arc welding and plasma cutting, and as a component in electronic devices like vacuum tubes.
4. Radiation Shielding: Tungsten is dense and has good absorption properties for X-rays and gamma rays, making it suitable for use in radiation shielding for medical and industrial applications, as well as in nuclear reactors and radiation therapy equipment.
5. Cemented Carbides: Tungsten carbide, a compound of tungsten and carbon, is extremely hard and wear-resistant. It is used in cutting tools, drilling bits, mining equipment, and other applications where hardness and durability are critical.
6. Jewelry and Fashion: Tungsten's hardness and scratch resistance make it popular in jewelry, particularly in men's rings and accessories. Tungsten carbide rings are increasingly popular due to their durability and sleek appearance.
7. Alloys and Additives: Tungsten is used as an alloying element in various metals and alloys to improve their properties. It is also used as an additive in materials such as steel, where it enhances hardness and wear resistance.

Mean Density

The mean density, or more precisely, the mean volumetric mass density, of a substance is the average mass per unit volume of a substance in its most common or naturally occurring state.  The vCalc symbol for mean density is `muD`.  The standard units for mean density are kilograms per cubic meter.  However, vCalc provides automatic conversions to other units via the pull-down menu including:

• (lb/ft³): pound per cubic foot
• (g/cm³): grams per cubic centimeter
• (t/m³): metric tons per cubic meter
• (ton/yd³): tons (U.S.) per cubic yard
• (oz/in³): ounces per cubic inch

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Metals are materials characterized by its physical and chemical properties, primarily its ability to conduct electricity and heat, its luster or shine when polished, its malleability (ability to be hammered or pressed into shapes), and its ductility (ability to be drawn into wires). Metals typically have a crystalline structure and are found naturally in solid form (with the exception of mercury, which is a liquid at room temperature).

Metals Densities Density of Aluminum - 2,700 kg/m3 Density of Brass - 8,530 kg/m3 Density of Bronze - 8,150 kg/m3 Density of Chromium - 7190 kg/m3 Density of Cobalt - 8746 kg/m3 Density of Copper - 8,920 kg/m3  Density of Gallium - 5907 kg/m3  Density of Gold - 19,300 kg/m3 Density of Iron - 7,847 kg/m3 Density of Lead - 11,340 kg/m3 Density of Nickle - 8908  kg/m3  Density of Palladium -  12,023 kg/m3 Density of Platinum - 21,450 kg/m3  Density of Steel - 7,850 kg/m3  Density of Silver - 10,490 kg/m3  Density of Titanium - 4,500 kg/m3  Density of Tungsten - 19,600 kg/m3  Density of Uranium - 19,050 kg/m3 Density of Zinc - 7,135 kg/m3  Density of Zirconium - 6,570 kg/m³

Metals make up a large portion of the periodic table of elements, with examples including iron, copper, gold, silver, aluminum, and titanium, among many others. Metals are essential in various industries such as construction, manufacturing, electronics, transportation, and energy production due to their unique properties and versatility.

Metals are generally dense materials. Density is a measure of how much mass is contained in a given volume. Metals tend to have high densities because their atoms are closely packed together in a crystalline structure. This close packing of atoms contributes to their characteristic properties such as strength, malleability, and conductivity.

However, it's important to note that the density of metals can vary widely depending on factors such as their elemental composition, crystal structure, and any impurities present. For example, some metals like lead and platinum are denser than others like aluminum or magnesium.

The Weight of Metal Calculator contains functions and data to compute the weight (mass) of metal objects based on their size, shape and the density of the metal.  The Weight of Metal functions are:

• Cylinder Weight: Computes the weight (mass) of a cylinder based on the radius, length (height) and density of metal.
• Sphere Mass: Computes the mass (weight) of a sphere based on the radius and density of metal.
• Hemisphere Mass: Computes the mass (weight) of a hemisphere based on the radius and density of metal.
• Weight of Metal Bars: Computes the mass (weight) of a number of metal flats or metal bars based on the dimensions and density of metal.
• Weight of Metal Rods: Computes the mass (weight) of a number of metal rods based on the dimensions and density of metal.

For the mean densities of other substances click HERE.

References

Wikipedia: en.wikipedia.org/wiki/Density