Germanium has 32 electrons and protons; the number of neutrons is specific for each isotope. Number of neutrons in a germanium isotope = Mass number - 32
The atomic radius of germanium is approximately 122 picometers.
The energy band gap for germanium is around 0.67 electron volts (eV) at room temperature. This makes germanium a semiconductor with properties in between those of conductors and insulators.
Germanium is a semiconductor, which means its conductivity falls between that of a conductor and an insulator. It is not as good a conductor as metals like copper, but it can conduct electricity under certain conditions.
The energy band gap of germanium is approximately 0.67 electronvolts (eV). This means that it requires this amount of energy to move an electron from the valence band to the conduction band in germanium.
Germanium does no "do" anything.
Germanium is not manufactured; its ore is mined then refined into germanium.
Germanium has 32 electrons.
Germanium has an atomic number of 32. Therefore, germanium has 32 electrons.
Germanium has 32 protons.
Germanium has 32 protons.
Yes, germanium does form isotopes. It has five stable isotopes: germanium-70, germanium-72, germanium-73, germanium-74, and germanium-76. Additionally, there are several unstable isotopes of germanium that have been produced in laboratories.
Germanium can be found in compounds such as germanium dioxide (GeO2), germanium tetrahydride (GeH4), and germanium tetrachloride (GeCl4). These compounds are important in the electronics industry and for various chemical applications.
Germanium is a semiconductor
No, germanium is very brittle.
Natural germanium has only one radioactive isotope - germanium 76. 27 artificial radioisotopes of germanium are known.
Germanium is seen almost every day it is sold at local germanium sites.