User:Sushn345wiki

Icon This user has been on Wikipedia for 7 years, 8 months and 4 days.

This user participates in WikiProject Chemistry.

State of Tamil Nadu This user comes from Tamil Nadu .

This Wikipedian is a citizen of the Republic of India .

This user is an Indian citizen.

This user comes from India .

This user is proud to be an Indian .

This user has a keen interest in learning about Chemistry .

This user has a passion to learn about organic chemistry .

This user loves learning about inorganic chemistry .

This user is interested in green chemistry .

This user has a keen interest in biochemistry .

This user can recite the entire Periodic Table .

This user can recite the entire Periodic Table in under two minutes!

This user is familiar with the Atomic Orbital concept in Chemistry

This user is interested in Chemistry.

This user knows that atoms look nothing like this.

This user is interested in the study of Toxicology and Toxins .

This user is very much interested in bismuth crystal shapes!

HCl This user's favourite chemical is Hydrochloric acid .

This user knows the dire side effects of dihydrogen monoxide .
Do you?

This user has memorized the elements' names and symbols.

This user finds dihydrogen monoxide highly toxic.

This user celebrates, or was born on, Mole Day , on October 23rd . 6.02x10²³

This user survived the total solar eclipse of August 21, 2017 .

This user is interested in Celestial mechanics and Astronautics

This user is interested in astronomy .

This user is interested in astronomy .

This user is interested in human impacts on the environment.

evol This user considers evolution an amazing biological fact.

This user admires the tropical rainforests.

This user has been genotyped.

This user is interested in biology .

This user is a proponent of humane eugenics .

This user believes "There is grandeur in this view of life..."

This user is interested in
Biochemistry .

This user is interested in
Cell Biology .

This user is interested in
DNA and genetics .

This user is interested in
Molecular Biology .

This user is has a keen interest in Mathematics .

BIO This user's favourite subject is Biology .

This user is interested in genetics .

<html> This user can write HTML .

Eagle Nebula This user is interested in astronomy .

This user has a keen interest in physics .

This user has a keen interest in Quantum Physics .

This user is familiar with the concept of Standard Model, a theory which is related to Quantum Physics.

This user's favourite language is the English language.

This user enjoys riding a bicycle .

'Propylene glycol' This user has helped to improve an article.

'Ethylene glycol' This user has helped to improve an article.

'Calvatia sculpta' This user has helped to improve an article.

'Extended periodic table' This user has helped to improve an article.

'Extended periodic table (large version)' This user has helped to improve an article.

'Periodic Table' This user has helped to improve an article.

' Tohoku earthquake and tsunami' This user has helped to improve an article.

Make articles, not wikidrama

This user wishes you all to stay cool when the editing gets hot.

This user supports the use of ridiculously huge userboxes

Sugar Deoxyribonucleic acid DNA. Hydrogen Chloride Atomic Orbital The Periodic Table Standard Model ADOMAH Periodic Table ADOMAH Periodic Table (horizontal) Perchloric acid (HClO₄) Fluoroantimonic acid (H₂FSbF₆)

User Information Table

Serial Number	Category	Data	Rate of change since the last edit
1.	No. of Edits as of 25-08-17	658 edits	+ 3 edits
2.	No. of Articles Created as of 25-08-17	5 articles	+0
3.	No. of Articles Improved as of 25-08-17	81 articles	+0 articles
4.	No. of User boxes created as of 25-08-17	23 user boxes	+0 user boxes
5.	No. of Templates created as of 25-08-17	1 template	+0 templates
6.	No. of User boxes moved as of 25-08-17	23 user boxes	+0 user boxes
7.	No. of deleted edits as of 25-08-17	65 deleted edits	+0 deleted edits
8.	Date and time of the First edit done	Jul 8, 2017, 6:11 AM (UTC)	-----
9.	First article created	Ortho-diethynylbenzene dianion	-----
10.	Average number of edits per day as of 25-08-17	16.8 edits	- 0.8 edits
11.	Unique pages edited as of 25-08-17	81 pages	+ 0 pages
12.	Pages created as of 25-08-17	69 pages	+ 0 pages
13.	Pages moved as of 25-08-17	24 pages	+ 0 pages
14.	Average edits per page as of 25-08-17	8.1 edits	+ 0.1 edits
15.	Files uploaded as of 25-08-17	2 files	+0 files
16.	Files uploaded (Commons) as of 25-08-17	27 files	+ 0 files
17.	Reverted edits as of 25-08-17	1 edit	NC
18.	Edits with summary as of 25-08-17	394 edits	+ 3 edits
19.	Number of minor edits (tagged) as of 25-08-17	26 edits	+ 0 edits
20.	Number of times the user has thanked others for their edits	20 times	NC
21.	Total number of edits (including Wikipedia and Wikimedia Commons)	723 edits	+3 edits
22.	Percentage of edits with no summary as of 25-08-17	40%	- 0.2%
23.	Percentage of edits with summary as of 25-08-17	60%	+ 0.2%
24.	Percentage of edits done in the user's User page as of 25-08-17	62.4%	NC
25.	Percentage of edits done on the articles (other pages) as of 25-08-17	28.5%	NC
26.	Percentage of edits done in the user's User talk as of 25-08-17	5.2%	NC
27.	Percentage of edits done in template as of 25-08-17	~0.8%	NC
28.	Percentage of edits done in drafts as of 25-08-17	~0.8%	NC
29.	Percentage of edits done in the Wikipedia talk as of 25-08-17	NC
30.	Number of messages of appreciation sent to other users as of 25-08-17	3	+ 0
31.	Number of edits done in articles as of 25-08-17	187 edits	+ 0 edits
32.	Number of edits done in the user page as of 25-08-17	409 edits	+ 0 edits
33.	Number of edits done in the user talk as of 25-08-17	34 edits	+ 0 edits
34.	Number of edits done in template as of 25-08-17	5 edits	+ 0
35.	Number of edits done in draft as of 25-08-17	8 edits	+ 0
36.	Number of edits done in the draft talk as of 18-08-17	1 edit	+ 0
37.	Latest article created as of 25-08-17	List of Organic acids (redirected)	-----

NC refers to No Change since the last edit.

The above table about me gets updated periodically every week. Expected dates of revision of the table:

Expected revision dates

Serial Number	Date	Day	Status
1.	18-08-17	Friday	Done
2.	25-08-17	Friday	Pending
3.	01-09-17	Friday	Pending (revision may not be done)
4.	08-09-17	Friday	Pending (revision may not be done)
5.	15-09-17	Friday	Pending (revision may not be done)
Only five revision	dates have been	given as of
now because after	15-09-17, I have	to prepare
for my exams.

These are the articles which I recommend a person to read.

Recommended Chemistry Articles

Serial Number	Article name
1.	Ortho-diethynylbenzene dianion
2.	Meta-diethynylbenzene dianion
3.	Para - diethynylbenzene dianion
4.	Lithium monoxide anion
5.	Periodic Table
6.	Extended Periodic Table
7.	Extended Periodic Table (Large Version)
8.	Sigma bond
9.	Pi bond
10.	Chemical bond
11.	Dihydrogen monoxide: An Environmental Hazard
12.	Atomic orbitals

These are the excerpts from the articles which I found particularly interesting.

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 p_z orbital is the same as the p₀ orbital, but the p_x and p_y 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.

s (l = 0)	p (l = 1)			d (l = 2)					f (l = 3)
m = 0	m = 0	m = ±1		m = 0	m = ±1		m = ±2		m = 0	m = ±1		m = ±2		m = ±3
s	pz	px	py	dz2	dxz	dyz	dxy	dx2−y2	fz3	fxz2	fyz2	fxyz	fz(x2−y2)	fx(x2−3y2)	fy(3x2−y2)
n = 1
n = 2
n = 3
n = 4
n = 5										. . .	. . .	. . .	. . .	. . .	. . .	. . .
n = 6					. . .	. . .	. . .	. . .	. . .	. . .	. . .	. . .	. . .	. . .	. . .	. . .
n = 7		. . .	. . .	. . .	. . .	. . .	. . .	. . .	. . .	. . .	. . .	. . .	. . .	. . .	. . .	. . .

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 '"`UNIQ--postMath-00000001-QINU`"'
  Drum mode ${\displaystyle u_{01}}${\displaystyle u_{01}}
• Drum mode '"`UNIQ--postMath-00000002-QINU`"'
  Drum mode ${\displaystyle u_{02}}${\displaystyle u_{02}}
• Drum mode '"`UNIQ--postMath-00000003-QINU`"'
  Drum mode ${\displaystyle u_{03}}${\displaystyle u_{03}}
• Wave function of 1s orbital (real part, 2D-cut, '"`UNIQ--postMath-00000004-QINU`"')
  Wave function of 1s orbital (real part, 2D-cut, ${\displaystyle r_{max}=2a_{0}}${\displaystyle r_{max}=2a_{0}})
• Wave function of 2s orbital (real part, 2D-cut, '"`UNIQ--postMath-00000005-QINU`"')
  Wave function of 2s orbital (real part, 2D-cut, ${\displaystyle r_{max}=10a_{0}}${\displaystyle r_{max}=10a_{0}})
• Wave function of 3s orbital (real part, 2D-cut, '"`UNIQ--postMath-00000006-QINU`"')
  Wave function of 3s orbital (real part, 2D-cut, ${\displaystyle r_{max}=20a_{0}}${\displaystyle r_{max}=20a_{0}})

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.

• p-type drum modes and wave functions
• Drum mode '"`UNIQ--postMath-00000007-QINU`"'
  Drum mode ${\displaystyle u_{11}}${\displaystyle u_{11}}
• Drum mode '"`UNIQ--postMath-00000008-QINU`"'
  Drum mode ${\displaystyle u_{12}}${\displaystyle u_{12}}
• Drum mode '"`UNIQ--postMath-00000009-QINU`"'
  Drum mode ${\displaystyle u_{13}}${\displaystyle u_{13}}
• Wave function of 2p orbital (real part, 2D-cut, '"`UNIQ--postMath-0000000A-QINU`"')
  Wave function of 2p orbital (real part, 2D-cut, ${\displaystyle r_{max}=10a_{0}}${\displaystyle r_{max}=10a_{0}})
• Wave function of 3p orbital (real part, 2D-cut, '"`UNIQ--postMath-0000000B-QINU`"')
  Wave function of 3p orbital (real part, 2D-cut, ${\displaystyle r_{max}=20a_{0}}${\displaystyle r_{max}=20a_{0}})
• Wave function of 4p orbital (real part, 2D-cut, '"`UNIQ--postMath-0000000C-QINU`"')
  Wave function of 4p orbital (real part, 2D-cut, ${\displaystyle r_{max}=25a_{0}}${\displaystyle r_{max}=25a_{0}})

• d-type drum modes
• Mode '"`UNIQ--postMath-0000000D-QINU`"' (3d orbital)
  Mode ${\displaystyle u_{21}}${\displaystyle u_{21}} (3d orbital)
• Mode '"`UNIQ--postMath-0000000E-QINU`"' (4d orbital)
  Mode ${\displaystyle u_{22}}${\displaystyle u_{22}} (4d orbital)
• Mode '"`UNIQ--postMath-0000000F-QINU`"' (5d orbital)
  Mode ${\displaystyle u_{23}}${\displaystyle u_{23}} (5d orbital)

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%.

50Hz sound Caution! Loud noise! Be careful!!!

60Hz sound Caution! Loud noise! Be careful!!!

400Hz sound Caution! Loud noise! Be careful!!!

Beep sound. Caution! Loud, high pitched noise! Be careful!!!

1kHz sound. Caution! Loud, high pitched noise! Be careful!!!

315Hz sound. Caution! Loud noise! Be careful!!!

440Hz sound. Caution! Loud noise! Be careful!!!

1) Jake Chudnow - Prelude to Shona

2) Jake Chudnow - Shona

3) Jake Chudnow - Keith

4) Jake Chudnow - Pressed Pennies

5) Jake Chudnow - Going Down

6) Jake Chudnow - Olive

1) Mystery Train

2) Ghost Train

3) Book of Secrets

1) Caminho Do Mar 2

2) Ice Houses (not by Jake Chudnow)

Note: Acronym used for 'Hexadecimal Code' is 'HEXDL C'.

Wikipedia may not be able to read the code of some of the colours. But, in other websites, the code should work. :-)