The electron configurartion of silicon is [Ne]3s23p2.
Silicon has 4 valence electrons. No noble gases will have 4 valence electrons.
There is no noble gas configuration for hydrogen.
its a noble gas.
Well, the steps I take are to first find the element on the periodic table that you are trying to write the configuration for. Then, determine which noble gas is in the previous period and put that element in brackets. You must have basic knowledge about electron configuration to understand the next part. Here is an example: Find the noble gas configuration of Silicon: Because the noble gas listed in the previous period of silicon is neon, we will start by putting brackets around it. The next step you must learn yourself. Answer: [Ne]3s²3p²
Krypton is a noble gas and already has noble gas configuration.
An atom of silicon needs to gain 4 electrons in its 3p sublevel to attain the noble gas electron configuration of argon, the noble gas in period 3 of the periodic table.
Silicon has 4 valence electrons. No noble gases will have 4 valence electrons.
The electron configurartion of silicon is [Ne]3s23p2.
There is no noble gas configuration for hydrogen.
its a noble gas.
Well, the steps I take are to first find the element on the periodic table that you are trying to write the configuration for. Then, determine which noble gas is in the previous period and put that element in brackets. You must have basic knowledge about electron configuration to understand the next part. Here is an example: Find the noble gas configuration of Silicon: Because the noble gas listed in the previous period of silicon is neon, we will start by putting brackets around it. The next step you must learn yourself. Answer: [Ne]3s²3p²
Krypton is a noble gas and already has noble gas configuration.
The noble gas configuration of strontium is [Kr]5s2.
The noble gas configuration for manganese is [Ar]4s23d5
The noble gas electron configuration of radon is [Xe]4f145d106s26p6.
Krypton is already a noble gas and hence need not gain noble gas configuration.
The "Noble gas electron configuration," or the condensed electron configuration, for F is [He] 2s2 3p5.