Cerium (Ce) has the electron configuration of [Xe] 6s² 4f¹ 5d¹ due to its position in the f-block of the Periodic Table. As a lanthanide, it has a partially filled 4f subshell, which can interact with the 5d subshell. In its ground state, cerium typically loses electrons from the 5d and 4f orbitals, resulting in the unique 5d¹ 4f¹ configuration that allows it to exhibit a variety of oxidation states and chemical properties. This configuration reflects the energy levels of the orbitals and the stability associated with them.
that would not be an element itself, but a compound containing a few different elements: xenon, sulfur, and one undiscovered element ("F" does not currently exist)
Ce: 1s22s22p63s23p64s23d104p65s24d105p66s24f2 Ce: [Xe] 6s24f2
[Rn] 6s24f145d6 is an invalid abbreviated electron configuration, the closest electron configuration would probably be [Xe] 6s24f145d6 which would be iridium (Ir), or if you meant [Rn] 7s25f146d6, it would be Meitnerium (Mt).
The chemical symbol for the element cerium is Ce. Cerium is a soft, silvery, malleable, and ductile metal that is part of the lanthanide series on the periodic table.
The four long periods of history defined by Western societies are: Ancient history (c. 3000 BCE – 500 CE), Medieval history (c. 500 CE – 1500 CE), Early Modern history (c. 1500 CE – 1800 CE), and Modern history (c. 1800 CE – present). Each period is characterized by distinct social, cultural, political, and economic developments.
that would not be an element itself, but a compound containing a few different elements: xenon, sulfur, and one undiscovered element ("F" does not currently exist)
[Xe] 6s2 5f1
Ce: 1s22s22p63s23p64s23d104p65s24d105p66s24f2 Ce: [Xe] 6s24f2
Osmium
Common Emitter(CE) Configuration possess largest voltage gain among the three(CE CB CC).
The noble gas core method for cerium (Ce) involves using the electron configuration of the nearest noble gas, which is xenon (Xe). The electron configuration for xenon is [Xe] 5s^2 4d^10. To find the electron configuration of cerium, we add the remaining electrons for Ce after xenon's electron configuration, which is 6s^2 4f^1 5d^1. Therefore, the electron configuration for cerium using the noble gas core method is [Xe] 6s^2 4f^1 5d^1.
comparerission between CB,CC&CE
cc/ce/cb doesn't give the no current gain
The common emitter (CE) configuration provides large current amplification because it utilizes a small base current to control a much larger collector current, resulting in a significant current gain (β). In contrast, the common base (CB) configuration does not offer the same level of amplification since it is designed for high-frequency applications and has a lower input impedance, which leads to a smaller output current relative to the input. Additionally, the CB configuration does not allow for the same degree of control over the collector current by the base current as the CE configuration does.
Actually ce configuration is preferred for amplification since it has a current gain of 20-500 and also has appreciable voltage and power gain. It has moderate output to input impedence ratio(about 50).
because in ce configuration value of input voltage requried to make the transistor on is very less value of the output voltage or output current
For the chemical view: Ce means Cerium, element number 58, symbol Ce (second of the Lanthanides):Electron configuration: (K,L,M,N,O,P) 2, 8, 18, 19, 9, 2