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How many sublevels are used with elements on the periodic table in energy level 6?
Wiki User
∙ 11y ago
There are five sublevels in the fifth energy level: 5s, 5p, 5d, 5f, and 5g.
Wiki User
∙ 11y ago
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How many energy sublevels are in second energy level?
There are two sublevels in the 2nd principal energy level. They are the 2s and 2p sublevels.
How many energy sublevels are there in the second principal level?
There are 2 energy sublevels in the second principal.
How many different sublevels are in the third energy level?
3
How many different sublevels are in the second energy level?
2
Why is it that all of the sub shells in a given shell have the same energy in the hydrogen atom whereas in a many-electron atom the sub shells in a given shell do not have the same energy?
The hydrogen atom only has one energy level (shell). The first energy level also contains only one sublevel, 1s sublevel (subshell), which can only hold two electrons. When you get to the second energy level in the second period on the periodic table, it has two sublevels, the 2s and the 2p sublevels. Both of the electrons in the 2s sublevel have the same energy. The 2p sublevel can hold 6 electrons. All of the electrons in the 2p sublevel have the same energy, which is higher than the energy in the 2s sublevel. So, as we move down the periods on the periodic table, we move from the first energy level to the seventh energy level. Each energy level contains specific numbers of sublevels, and all of the atoms within a particular sublevel have equal energy.
How many energy sublevels are in second energy level?
There are two sublevels in the 2nd principal energy level. They are the 2s and 2p sublevels.
How many energy sublevels are there in the second principal level?
There are 2 energy sublevels in the second principal.
How many different sublevels are in second energy level?
2
How many different sublevels are in the second energy level?
2
How many different sublevels are in the third energy level?
3
Period in chemistry?
A period is a horizontal row on the periodic table of the elements. There are seven periods on the periodic table. Each period corresponds to the highest energy level that contains electrons. For example, the elements in the first period have electrons in the first energy level, which is the only energy level available; the elements in the second period have their highest energy electrons in the second energy level; the elements in the third period have their highest energy electrons in the third energy level, and so on.
Why is it that all of the sub shells in a given shell have the same energy in the hydrogen atom whereas in a many-electron atom the sub shells in a given shell do not have the same energy?
The hydrogen atom only has one energy level (shell). The first energy level also contains only one sublevel, 1s sublevel (subshell), which can only hold two electrons. When you get to the second energy level in the second period on the periodic table, it has two sublevels, the 2s and the 2p sublevels. Both of the electrons in the 2s sublevel have the same energy. The 2p sublevel can hold 6 electrons. All of the electrons in the 2p sublevel have the same energy, which is higher than the energy in the 2s sublevel. So, as we move down the periods on the periodic table, we move from the first energy level to the seventh energy level. Each energy level contains specific numbers of sublevels, and all of the atoms within a particular sublevel have equal energy.
How many sublevels would you expect in the 8th energy level?
There are 8 sublevels, or types of orbitals in the 8th energy level. They would be s, p, d,f, g, h, i,j.
Which principle energy level contains only s and p sublevels?
Level 2
Which sublevels of the third energy level are filled in the element krypton?
In krypton atoms, the 3s and 3p sublevels are filled, i.e. 3s23p6.
Are sublevels smaller or larger than energy levels?
Depends on what one means by "smaller". Since sublevels are "inside" or part of the principle energy level, then yes, they are smaller.
How are the orbital different in sublevels of the same principal energy level?
the orbitals of the sublevels of the same principal energy level differ in shape which describes where the electron is likely to be found. Also the orbitals of sublevels have different energy levels. In ascending enegy in any level s < p < d < f < g etc HOWEVER whether the different sublevels exist depends on the principal energy level ie 1s 2s, 2p 3s, 3p, 3d 4s, 4p, 4d, 4f
