Silicon dioxide has a density of 2.63 g/cm3.
Iron is more dense than silicon.
Resistivity of silicon higher than that of germanium
The mineral quartz has a density of 2.65 grams per cubic centimeter. It is a colorless mineral that is mainly composed of silicon dioxide.
Density of Silicone: 0.968 to 1.29 grams per cubic centimeter for the silicone most people think of (implants). That's 60 to 80 lbs per cubic foot. For comparison, water has a specific gravity of 1, or about 62.4 lbs per cubic foot. Also for comparison, there are about 7.5 gallons in 1 cubic foot. A gallon of water weighs about 8.3 lbs. There are also high density silicones with specific gravities around 2.8 (that's 2.8 g/cc). That's about 175 lbs per cubic foot, or 2.8 times the density of water (280%). People often confuse SILICONE with SILICON. Silicone is a polymer (plastic/rubber) that contains silicon, usually in the form of silicon oxide (SiO, SiO2). Silicon is the second most abundant element on earth and makes up a large portion of inland and non-coastal sand, also in the form of silicon oxide (quartz).
Silicon dioxide has a density of 2.63 g/cm3.
Amorphous silicon hasspecific gravity (or Specific Density) of 2.35Crystalline silicon (the stuff ICs are made out of) has specific gravity of 2.49Source: http://www.indicareer.com/entrance-exams/mht-cet/chemistry/Silicon-1.html
The density of silicon is 2.329 kg/m3.
Iron is more dense than silicon.
Mass of silicon = 8.763 (grams? tons?) Volume of silicon = 28.76 - 25.00 (cc? cubic meters?) = ..... Density = Mass of silicon divided by Volume of silicon. = ....... gms/cc? tons/cubic-metre?
Assuming a density of 1 g/cc ... Then the answer is 750 g But if they are silicon you would need to find the density of silicon. Note cc means cubic centimeters or cm³
vcfb dh
2g/cm3
Resistivity of silicon higher than that of germanium
Density= mass/volumeDensity=820g/350cm3Density= 2.34g/cm3
False. Density increases with increasing depth.
The large macro molecular structure of carbon allows for close packing of carbon atoms making them more dense, whereas in silicon, even though the structure is macromolecular, due to the silicon atom's large size, it cannot pack as closely as carbon thus having a lower density than carbon.