This is a small and very easy to use program that will help you study and better understand the principal quantum number.
The principal quantum number determines the energy of the one electron atoms. It also determines how far in space around the nucleus the orbitals can extend.
NOTE: The prerequisite app, More Chemistry Help can be downloaded from the sofware’s home page.
n = 1: ground state
n = 2: first excited state
n = 3: second excited state
n = 4: third excited state
n = 5: fourth excited state
n = 6: fifth excited state
n can range from 1 to infinity.
n = 1, 2, 3, 4, 5, 6, 7, 8… INFINITY (1-infinity)
Principal quantum number Example:
n = 2 n = 1.2 -> np1/2 In this the principal quantum number is 1.2, where n=2
n = 3 n = 3.2 -> np3/2 In this the principal quantum number is 3.2, where n=3
Principal quantum number Questions:
1. What is the principal quantum number of the first two excited states?
2. What is the principal quantum number of the third excited state?
3. What is the principal quantum number of the second excited state?
4. What is the principal quantum number of the first excited state?
5. What is the principal quantum number of the second excited state?
6. What is the principal quantum number of the third excited state?
7. What is the principal quantum number of the fourth excited state?
8. What is the principal quantum number of the fifth excited state?
9. What is the principal quantum number of the first excited state?
10. What is the principal quantum number of the second excited state?
11. What is the principal quantum number of the third excited state?
12. What is the principal quantum number of the fourth excited state?
13. What is the principal quantum number of the fifth excited state?
14. What is the principal quantum number of the first excited state?
15. What is the principal quantum number of the second excited state?
16. What is the principal quantum number of the third excited state?
17. What is the principal quantum number of the fourth excited state?
18. What is the principal quantum number of
The principal quantum number n is an integral part of quantum mechanics and is defined as the order of the highest occupied level (orbital). The principal quantum number n can be positive or negative. When n is positive, n represents a higher orbital relative to the ground state.
n = \ceil[\frac{10.3[hc]}{E}]
E=PE-PC =Energy
“The principal quantum number, a basis for quantification of energy levels, is used to represent the n-th highest electron in the atom. A state in which electrons fill the n-th orbital from the n=1 to the n = nmax is denoted nnn”.
The above rule is applied for the calculation of energies of other energy levels such as excited states.
The principal quantum number is also used to define the number of the energy level in the hydrogen atom, the noble gases, and the elements from the first row. The above equations indicate that the hydrogen atom, which contains one electron is the most stable of all atoms. The other noble gases, which contain one valence electron, also have a higher stability than all the other atoms. Therefore, a valence electron (n=1) is the most stable energy level in all these atoms. In order to find the energy levels of the other atoms, they must start with a different principal quantum number.
A:
You need to remember that states can be represented by a wave function. If a function is unique, it means it can be described by the function, but it does not mean it represents the possible energies of that wave function.
Instead of a function for the energy, you’d instead get a function for the wave functions for that energy, and from that, you can extrapolate how those wave functions relate to the energy. For the zeroth orbital, you get 1, so you can use that as the energy function in Bohr model and $n=1$ is the 1st orbital. The next orbital is n=2, which is 2, and n=3 is 3. Just look at the LHS of that equation and you’ll understand why those are called principal quantum numbers.
A:
It’s the principal quantum number $n$, the number of max energy allowed to a single electron in a given atom.
When we have a hydrogen-like atom, $n=1$ is the $1$st energy level, which we know
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The principal quantum number of a nucleus (n) is the number of the next higher shell of electrons in which the electron can be found.
Examples:
Helium has one electron in the first, or valence shell.
Sodium is in the second, or valence, shell.
Potassium is in the third, or valence, shell.
The first shell begins at n = 2.
The next shells begin at n = 3, n = 4, n = 5… and so on.
For example, with n = 3, (i.e. a valence shell) the electron could be in the second, third, fourth, and fifth shells.
It may help to think about the “electron cloud” that surrounds the nucleus. If the cloud starts at n = 2, the first shell, then the electron must be in the second, third, fourth, and fifth shells, and so on.
The Principle quantum number for beryllium is 6, as the next shell is the 7th.
The principle quantum number for boron is 10, as the next shell is the 11th.
The principle quantum number for carbon is 12, as the next shell is the 13th.
The principle quantum number for sulfur is 16, as the next shell is the 17th.
The principle quantum number for chlorine is 18, as the next shell is the 19th.
The principle quantum number for fluorine is 19, as the next shell is the 20th.
The principle quantum number for argon is 21, as the next shell is the 22nd.
The principle quantum number for krypton is 22, as the next shell is the 23rd.
The principle quantum number for xenon is 23, as the next shell is the 24th.
The principle quantum number for radon is 24, as the next shell is the 25th.
The principle quantum number for nitrogen is 25, as the next shell is the 26th.
The principle quantum number for oxygen is 26, as the next shell is the 27th.
The principle quantum number for neon is 27, as the next shell is the 28th.
The principle quantum number for lithium is 28, as the next shell is the 29th.
The principle quantum number for bromine is 29, as the next shell is the 30th.
The principle quantum number for iodine is 30, as the next shell is the 31th.
The
– you see a list of principal quantum numbers in the upper right corner of the screen
– choose the principal quantum number by a right click to select a new value for the principal quantum number:
– the lower right hand corner displays the previous principal quantum number and the new one.
– the screen size changes to reflect the new value of principal quantum number
– all atoms are now on the screen but only the atoms with principal quantum number equal to or less than the value of principal quantum number you selected for the screen.
You can select the atoms of interest by using the right click menu.
Additional features:
– Select the Atom section by clicking on the 3 dots button on the upper left hand corner to add or delete atoms of interest.
– You can also select specific atoms by clicking on the “I” button on the upper left hand corner of the screen.
Your goal is to study the following principal quantum number values:
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
Instructions
————–
– Main screen
– Main screen
– The Main screen displays the principal quantum number of atoms in the upper right corner of the screen. Select a principal quantum number by clicking on the “I” button next to the screen.
– The value you selected appears in the lower right hand corner.
– The screen size changes to reflect the value of principal quantum number you selected.
– Atom list
– Atom list
The Atom list is a section where you can add atoms of interest by clicking the “I” button on the upper left hand corner of the screen.
You can toggle the section by clicking on the 3 dots button on the upper left hand corner of the screen.
You can select specific atoms by clicking on the “I” button on the upper left hand corner of the screen.
– More chemistry help
– More chemistry help
It is highly recommended that you download and use More Chemistry Help before starting this chemistry help app. More Chemistry Help is a great app designed specifically to make your study of chemical concepts easier.
– Some things to note
– If you have problems, keep in mind that the app runs as a background app and will be shown at the top of the phone screen.
– There are 3 modes (simple, medium and more complex
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