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A neutron walks into a bar and asks the proton bartender, "How much for a drink?" The bartender replies, "For you, no charge." The neutron says, "Are you sure?" and the proton says, "I'm positive."
Hello, this is Sushant under the username Sushn345wiki. Currently, I am 13 years old. Even though I was born in Chennai, I am living in Thane, Mumbai, India. I am fascinated by Chemistry and Biology. I love studying about Chemistry and Biology and Physics. But Chemistry is my most favourite subject. I love sharing my knowledge about the subjects in which I have interest.
People usually call me a "bookworm", but when they do call me with that word, I feel, sort of HONOURED! I love reading Chemistry textbooks of Grade 12th (even though I am in 9th) because I have a passion to learn Chemistry. I also have a lot of interest in Genetics and Quantum Physics - in a nutshell, I love to read about things equal to or smaller than molecules, by size.
I study in Universal High School, Brahmand, Thane(W), 400607.
Other Websites Where The User Has Made Contributions
I have made a lot of contributions on Quora. I answer questions based on Chemistry in Quora. Till now, I have answered 24 Chemistry and Quantum Physics related questions on Quora. I have got 14 Upvotes for my answers on Quora. Till now, I have got more than 2000 views to my answers.
I have multiple accounts other than the main account (Sushn345wiki) - Basically a Wikipedian, Sushn0710wiki and Sushantnair. These accounts are used when I am editing Wikipedia via other electronic devices. I have created these multiple accounts to not cause any harm to Wikipedia. I edit with the account Sushantnair if I am using my mom's phone. I edit with the account Basically a Wikipedian if I am using an untrusted electronic device belonging to someone else. I edit with the main accountSushn345wiki if I am using my own laptop. I edit with the account Sushn0710wiki if I am using an electronic device belonging to my father. I have no intentions to commit vandalism to Wikipedia using my alternative accounts.
I am an honest person who has read the Wikipedia:Sock puppetry guidelines extremely carefully and would avoid at all costs, any inappropriate use of multiple accounts.
Also, I avoid using my alternative accounts and electronic devices other than mine to edit articles on Wikipedia. I prefer using my main account (Sushn345wiki) and my own electronic device to edit articles on WIkipedia to avoid confusion.
I have added the search button just for fun! You can search anything here. It's just a shorter way of searching rather that going all the way to the top of the page and then searching.
This user enjoys tracking weather, and might have a personal weather station.
This user is a bookworm. This user feels HONOURED when somebody calls this user a bookworm. Reason? Well, two synonyms of the word 'bookworm' are scholar and reader. :)
This user is a nerd.
This user has a keen interest to do Yoga (although, nowadays, this user doesn't have the time to do so).
This user has a keen interest to do chanting (although, nowadays, this user doesn't have the time to do so).'.
This user has a keen interest in doing Meditation.
This user believes in the principles of Democracy.
Here is an Orbitals Table for reference. This table shows all orbital configurations for the real hydrogen-like wave functions up to 7s, and therefore covers the simple electronic configuration for all elements in the periodic table up to radium. "ψ" graphs are shown with − and +wave function phases shown in two different colors (arbitrarily red and blue). The pz orbital is the same as the p0 orbital, but the px and py are formed by taking linear
combinations of the p+1 and p−1 orbitals (which is why they are listed under the m = ±1 label). Also, the p+1 and p−1 are not
the same shape as the p0, since they are pure spherical harmonics.
The shapes of atomic orbitals can be understood qualitatively by considering the analogous case of standing waves on a circular drum. To see the analogy, the mean vibrational displacement of each bit of drum membrane from the equilibrium point over many cycles (a measure of average drum membrane velocity and momentum at that point) must be considered relative to that point's distance from the center of the drum head. If this displacement is taken as being analogous to the probability of finding an electron at a given distance from the nucleus, then it will be seen that the many modes of the vibrating disk form patterns that trace the various shapes of atomic orbitals. The basic reason for this correspondence lies in the fact that the distribution of kinetic energy and momentum in a matter-wave is predictive of where the particle associated with the wave will be. That is, the probability of finding an electron at a given place is also a function of the electron's average momentum at that point, since high electron momentum at a given position tends to "localize" the electron in that position, via the properties of electron wave-packets (see the Heisenberg uncertainty principle for details of the mechanism).
This relationship means that certain key features can be observed in both drum membrane modes and atomic orbitals. For example, in all of the modes analogous to s orbitals (the top row in the animated illustration below), it can be seen that the very center of the drum membrane vibrates most strongly, corresponding to the antinode in all s orbitals in an atom. This antinode means the electron is most likely to be at the physical position of the nucleus (which it passes straight through without scattering or striking it), since it is moving (on average) most rapidly at that point, giving it maximal momentum.
A mental "planetary orbit" picture closest to the behavior of electrons in s orbitals, all of which have no angular momentum, might perhaps be that of a Keplerian orbit with the orbital eccentricity of 1 but a finite major axis, not physically possible (because particles were to collide), but can be imagined as a limit of orbits with equal major axes but increasing eccentricity.
Below, a number of drum membrane vibration modes and the respective wave functions of the hydrogen atom are shown. A correspondence can be considered where the wave functions of a vibrating drum head are for a two-coordinate system ψ(r, θ) and the wave functions for a vibrating sphere are three-coordinate ψ(r, θ, φ).
s-type drum modes and wave functions
Drum mode
Drum mode
Drum mode
Wave function of 1s orbital (real part, 2D-cut, )
Wave function of 2s orbital (real part, 2D-cut, )
Wave function of 3s orbital (real part, 2D-cut, )
None of the other sets of modes in a drum membrane have a central antinode, and in all of them the center of the drum does not move. These correspond to a node at the nucleus for all non-s orbitals in an atom. These orbitals all have some angular momentum, and in the planetary model, they correspond to particles in orbit with eccentricity less than 1.0, so that they do not pass straight through the center of the primary body, but keep somewhat away from it.
In addition, the drum modes analogous to p and d modes in an atom show spatial irregularity along the different radial directions from the center of the drum, whereas all of the modes analogous to s modes are perfectly symmetrical in radial direction. The non radial-symmetry properties of non-s orbitals are necessary to localize a particle with angular momentum and a wave nature in an orbital where it must tend to stay away from the central attraction force, since any particle localized at the point of central attraction could have no angular momentum. For these modes, waves in the drum head tend to avoid the central point. Such features again emphasize that the shapes of atomic orbitals are a direct consequence of the wave nature of electrons.
My current mission is to increase the percentage of edits with summary from the existing 51% to 99%, and to decrease the percentage of edits with no summary from 49% to 1%. Also, I want to increase the percentage of edits done on articles from the existing 23.2% to at least 75%.
If you have any suggestions for me to improve my User Page, please inform me in my Talk Page, and it is a request by me to you to not to edit my User Page
As a reminder, if you have any doubts regarding articles based on Chemistry, feel free to ask me.
Remember: Vandalism to my User Page will not be tolerated
I have added the search button just for fun! You can search anything here. It's just a shorter way of searching rather that going all the way to the top of the page and then searching. It'll save your time! :-)