Zinc has ten 3d electrons.
Rubidium has one 5s electron.
the same as normal zinc it's just lost 2 electrons.
4 Ground state configuration is 5s^1 4^4
Technetium has 43 protons and electrons.
Zinc has ten 3d electrons.
Rubidium has one 5s electron.
5s orbital
2 electrons. The electron configuration of Zn is 2.8.18.2
Rubidium has one valence electron in the 5s orbital.
the same as normal zinc it's just lost 2 electrons.
4 Ground state configuration is 5s^1 4^4
5s orbital-ssmith ;))
Technetium has 43 protons and electrons.
The MnO2 would like to take electrons from the Zn much the same way that a bully would like to take someones lunch money. The problem for MnO2 is that it is not touching the Zn. The MnO2 is touching the graphite electrode and is trying to pull off the graphite electrons. Graphite is tougher than Zn and will not give up electrons but there is a tug. The graphite makes the positive electrode of the cell. On the Zn side, the Zn is the electrode and the electrons are not held very well by Zn. So the Zn electrode has pressure of electrons wanting to leave and the graphite electrode has suction that wants more electrons. The pressure difference can be measured as 1.5 volts. Volts are used to measure electrical pressure. When a light bulb or something is connected then electrons from the Zn electrode have a path to go to the graphite electrode. The graphite is willing to give electrons to MnO2 because it can get them back from the Zn through the circuit. Also when the Zn electrode loses 2 electrons a Zn atom turns into an ion and dissolves in the electrolyte. Because of its positive charge it is attracted to the correspondingly formed negative charge at the graphite when MnO2 took an electron.
Zinc has 30 electrons, 30 protons and 34 neutrons.
ZnCl2 is not a element. It is an compound. however Zn contains 30 protons.