The energy level for germanium is 4. You know its 4 because of the period its in for example: beryllium is in row 2 period 2 so the energy level is 2.
Carbon and Germanium They all have 4 electrons in their outer orbital
5
937 Kilojoules/mole
because germanium has lower energy gap between conduction and valence bands
Silicon has a larger bandgap energy than germanium, which contributes to higher junction potentials and ability to operate at higher temperatures.
Arsenic (As)The semi-metals are Boron, Silicon, Germanium, Arsenic, Antimony, Tellurium, and Polonium. The fourth energy level is simply four down the rows. This means the semi-metals that have their fourth energy level are Germanium and Arsenic. Since Arsenic has more electrons in it's outer shell, it will not want to give away electrons as much as Germanium.
Carbon and Germanium They all have 4 electrons in their outer orbital
5
no it doesnt it flammbility level is 1
It's over 9000.
.3 ev
937 Kilojoules/mole
because germanium has lower energy gap between conduction and valence bands
Gene A. Beck has written: 'Neutron energy determination with a high-purity germanium detector' -- subject(s): Neutrons, Germanium diodes
Silicon has a larger bandgap energy than germanium, which contributes to higher junction potentials and ability to operate at higher temperatures.
For intrinsic semiconductors like silicon and germanium, the Fermi level is essentially halfway between the valence and conduction bands. You don't have to do anything; just keep the semiconductor intrinsic!
Beryllium has greater ionization energy, with 899 kJ/mol versus Germanium's 762 kJ/mol. The general trend (most prominently displayed in the representative elements) in the periodic table is increasing ionization energy across a period, and decreasing ionization energy down a group.