2.34285714g/cm3
Density= mass/volumeDensity=820g/350cm3Density= 2.34g/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
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?
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.
Density= mass/volumeDensity=820g/350cm3Density= 2.34g/cm3
The density of silicon dioxide, also known as silica, is approximately 2.2 grams per cubic centimeter.
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
Iron is more dense than silicon.
The density of silicon is 2.329 kg/m3.
The density of silicon is approximately 2.33 grams per cubic centimeter.
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
The resistivity of germanium will decrease with increasing temperature due to a positive temperature coefficient of resistivity, while the resistivity of silicon will increase with increasing temperature due to a negative temperature coefficient of resistivity. At room temperature, silicon will have a higher resistivity compared to germanium.
False. Density increases with increasing depth.