Ajmp.org Website Review

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Ajmp.org receives about 562 visitors in one month. That could possibly earn $2.81 each month or $0.09 each day. Server of the website is located in the United States. Ajmp.org main page was reached and loaded in 0.36 seconds. This is a good result. Try the services listed at the bottom of the page to search for available improvements.

Traffic and Value

Is ajmp.org legit?
Website Value	$51
Alexa Rank	6433052
Monthly Visits	562
Daily Visits	19
Monthly Earnings	$2.81
Daily Earnings	$0.09

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Ajmp.org Server Location

Country: United States
Metropolitan Area: San Mateo
Postal Reference Code: 94402
Latitude: 37.5517
Longitude: -122.33

The United States is a good location for your server if your website will be receiving most or at least decent part of visitors from Northern America. If you are planning to target mostly other regions you should consider using CDN or changing your server location.

Summarized Content

Current Issue: Vol. 7, Issue 5, September 2018 Frequency: Bimonthly Md. Ziaur Rahman, Mohammed Mynuddin Pages: 185-193 Published Online: Dec. 5, 2018 Jiu-Ming Li, Bo-Ying Zhang, Xue-Qun Yan Pages: 180-184 Published Online: Nov. 26, 2018 Effect of Pulse Energy on the Optical Properties of ZnS Thin Films Prepared Using Pulse Laser Technique Elwakeel, Yousif Has*an Alsheikh Abd Alraheim Pages: 173-179 Published Online: Nov. 19, 2018 Modeling and Characterization of Inconsistent Behavior of Gate Leakage Current with Threshold Voltage for Nano MOSFETs Effects of Donor Size and Heavy Doping on Optical, Electrical and Thermoelectric Properties of Various Degenerate Donor-Silicon Systems Quantization Principles Based on the Shielding Effect and Planck’s Constant in Gravitational Fields RESEARCH TOPIC is an innovative academic concept focusing on the hottest areas in academia, here gathered a variety of current research active areas and issues. You can browse the topics you are interested in and offer new topics for others. Science Publishing Group Research Topic showcases your research area and contributes to the communication of academic information. If you In chemistry and physics, atomic theory is a scientific theory of the nature of matter, which states that matter is composed of discrete units called atoms. It began as a philosophical concept in ancient Greece and entered the scientific mainstream in the early 19th century when discoveries in the field of chemistry showed that matter did indeed behave as if it were made up of atoms. Wave–particle duality Wave–particle duality is the concept that every elementary particle or quantic entity may be partly described in terms not only of particles, but also of waves. It expresses the inability of the clas*ical concepts particle or wave to fully describe the behavior of quantum-scale objects. As Albert Einstein wrote: It seems as though we must use sometimes the one theory and sometimes the other, while at times we may use either. We are faced with a new kind of

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Title:	Home : American Journal of Modern	Could be improved
Description:	Not set	Empty

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Internal Pages

/archive:
Title	Archive : American Journal of Modern Physics
Description	Not defined

/specialissues:
Title	Special Issues: American Journal of Modern Physics
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Title	Editorial Board : American Journal of Modern Physics
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/submission:
Title	Submission: American Journal of Modern Physics
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/article/122/10.11648.j.ajmp.20180705.13:
Title	Kinetic Modelling of Atmospheric Pressure Nitrogen Plasma :: Science Publishing Group
Description	This model describes the production and destruction mechanism of nitrogen plasma at atmospheric pressure. We have studied the mechanisms of chemical dissociation, ionization, ion conversion and recombination in nitrogen plasmas, with kinetic temperature (Tg) of the free electrons being higher than the kinetic temperature (Tg) of heavy species. Therefore, the investigation of nitrogen plasma species in a wide range of pressure from 1 Torr to 760 Torr is interesting phenomena for obtaining the equilibrium state when the nitrogen species breakdown. In order to calculate the species densities to reach thermodynamic equilibrium under various conditions, a set of chemical kinetic reactions of nitrogen under consideration have been simulated. It solves the particle balance equations for a set of interacting species. In this study 16 reactions and 4 species of Nitrogen N, N2, N+, N2+ and electron have been considered. The densities of the charged and neutral species are modeled by continuity equations which includes the relevant plasma-chemical kinetics. Nitrogen species density is guided by continuity equation where chemical processes and Arrhenius form are used to follow the change of species density over the time. To calculate the species densities over pressure, temperature and time the continuity equations of the 16 reactions for the 5 species under consideration giving their initial pressure, densities and temperatures, with the latter held constant have been solved. The variations of species densities have been investigated as a function of pressure ranging from 1 to 760 Torr. This model shows that as the pressure is increased the species densities of nitrogen plasma also increase from pressure 1 to 200 Torr and after pressure above 200 Torr the species densities become almost saturated. The change of species densities at various temperatures ranging from 2000 Kelvin to 25000 Kelvin is successfully investigated. The destruction and production rates of the nitrogen species also have been calculated within the time ranging from 0 to 19nS and it shows that the density of nitrogen plasma increases with time. In our study we have considered the gas and electron temperature as 10k Kelvin and 4eV respectively.

/article/122/10.11648.j.ajmp.20180705.13:

Title

Kinetic Modelling of Atmospheric Pressure Nitrogen Plasma :: Science Publishing Group

Description

This model describes the production and destruction mechanism of nitrogen plasma at atmospheric pressure. We have studied the mechanisms of chemical dissociation, ionization, ion conversion and recombination in nitrogen plasmas, with kinetic temperature (Tg) of the free electrons being higher than the kinetic temperature (Tg) of heavy species. Therefore, the investigation of nitrogen plasma species in a wide range of pressure from 1 Torr to 760 Torr is interesting phenomena for obtaining the equilibrium state when the nitrogen species breakdown. In order to calculate the species densities to reach thermodynamic equilibrium under various conditions, a set of chemical kinetic reactions of nitrogen under consideration have been simulated. It solves the particle balance equations for a set of interacting species. In this study 16 reactions and 4 species of Nitrogen N, N2, N+, N2+ and electron have been considered. The densities of the charged and neutral species are modeled by continuity equations which includes the relevant plasma-chemical kinetics. Nitrogen species density is guided by continuity equation where chemical processes and Arrhenius form are used to follow the change of species density over the time. To calculate the species densities over pressure, temperature and time the continuity equations of the 16 reactions for the 5 species under consideration giving their initial pressure, densities and temperatures, with the latter held constant have been solved. The variations of species densities have been investigated as a function of pressure ranging from 1 to 760 Torr. This model shows that as the pressure is increased the species densities of nitrogen plasma also increase from pressure 1 to 200 Torr and after pressure above 200 Torr the species densities become almost saturated. The change of species densities at various temperatures ranging from 2000 Kelvin to 25000 Kelvin is successfully investigated. The destruction and production rates of the nitrogen species also have been calculated within the time ranging from 0 to 19nS and it shows that the density of nitrogen plasma increases with time. In our study we have considered the gas and electron temperature as 10k Kelvin and 4eV respectively.

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