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Polymorphism of the Crystals and the Formation of Snowflakes in the Clouds
Issue:
Volume 6, Issue 1, June 2018
Pages:
1-5
Received:
18 February 2018
Accepted:
8 March 2018
Published:
26 March 2018
Abstract: It was previously shown that the evaporation of the salt solution prepared in water with a positive electric potential, accompanied by the formation of cubic or rhombic crystals, and evaporation of the salt solution prepared in water with a negative electrical potential is accompanied by formation of needle-like crystals. It was also shown that the shape of salt crystals depends on the sign of the electric charge of the surface on which salt crystals are formed. It has been particularly shown that cubic or rhombic crystals formed on positively charged surfaces, while the needle-like crystals are formed on negatively charged surfaces. Knowing these dependencies is very productive, because it gives you an opportunity to establish a number of phenomena occurring in animate and inanimate nature. In order to popularize this idea, we propose the results obtained through its implementation. So, the knowledge of these dependencies allows us to explain the processes occurring in the storm glass during the weather change, as well as the formation of snowflakes in the clouds.
Abstract: It was previously shown that the evaporation of the salt solution prepared in water with a positive electric potential, accompanied by the formation of cubic or rhombic crystals, and evaporation of the salt solution prepared in water with a negative electrical potential is accompanied by formation of needle-like crystals. It was also shown that the...
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Analysis on Research and Education for Electromagnetic-Applied Subjects with Finite Difference Time Domain Theory
Hla Myo Tun,
Thida Than,
Myint Myint Than,
Khin Sandar Tun,
Zaw Min Naing,
Maung Maung Latt,
Win Khaing Moe
Issue:
Volume 6, Issue 1, June 2018
Pages:
6-16
Received:
16 February 2018
Accepted:
7 March 2018
Published:
29 March 2018
Abstract: The paper presents the analysis on research and development purposes and education purposes for engineering electromagnetic applied subjects like Engineering Electromagnetic, Optoelectronics, and Semiconductor Physics by utilizing the Finite Difference Time Domain (FDTD) Techniques. FDTD technique is a powerful tool for understanding the nature of electromagnetic fields and their various applications for research and development purposes.
Abstract: The paper presents the analysis on research and development purposes and education purposes for engineering electromagnetic applied subjects like Engineering Electromagnetic, Optoelectronics, and Semiconductor Physics by utilizing the Finite Difference Time Domain (FDTD) Techniques. FDTD technique is a powerful tool for understanding the nature of ...
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Development of Microstrip Patch Antenna Design for S-Band Application
Naw Khu Say Wah,
Hla MyoTun
Issue:
Volume 6, Issue 1, June 2018
Pages:
17-23
Received:
17 February 2018
Accepted:
7 March 2018
Published:
29 March 2018
Abstract: Microstrip patch antenna used to send onboard parameters of article to the ground while under operating conditions. The aim of the paper is to design as tacked nearly square microstrip patch antenna design for S band 2 GHz to 4 GHz and study the effect of antenna dimensions Length (L), and substrate parameters relative Dielectric constant (εr), substrate thickness (h) on the radiation parameters of Bandwidth and Beam-width. A stacked patch configuration is proposed to increase the narrow bandwidth, radiation efficiency and directivity. The proposed antenna is probe fed on a FR-4 substrate with dielectric constant of 4.4. At resonant frequency 2.42 GHz, antenna parameters like Return Loss, VSWR, Axial Ratio and Radiation pattern are verify and simulated on CST Microwave Studio by CST student edition.
Abstract: Microstrip patch antenna used to send onboard parameters of article to the ground while under operating conditions. The aim of the paper is to design as tacked nearly square microstrip patch antenna design for S band 2 GHz to 4 GHz and study the effect of antenna dimensions Length (L), and substrate parameters relative Dielectric constant (εr), sub...
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Progress of the SI and CGS Systems: Conversion of the MKSA Units to the MKS and CGS Units
Issue:
Volume 6, Issue 1, June 2018
Pages:
24-27
Received:
16 April 2018
Accepted:
2 May 2018
Published:
22 May 2018
Abstract: Recording of the equations in mechanics does not depend on the choice of system of measurement. However, in electrodynamics the dimension of the electromagnetic quantities (involving current, charge and so on) depends on the choice of unit systems, such as SI (MKSА), CGSE, CGSM, Gaussian system. We show that the units of the MKSA system can be written in the units of the MKS system and in conforming units of the CGS system. This conversion allows to unify the formulas for the laws of electromagnetism in SI and CGS. Using the conversion of units we received two new formulas that complement Maxwell's equations and allow deeper to understand the nature of electromagnetic phenomena, in particular, the mechanism of propagation of electromagnetic waves.
Abstract: Recording of the equations in mechanics does not depend on the choice of system of measurement. However, in electrodynamics the dimension of the electromagnetic quantities (involving current, charge and so on) depends on the choice of unit systems, such as SI (MKSА), CGSE, CGSM, Gaussian system. We show that the units of the MKSA system can be writ...
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Modeling of an Actif Cyclic Electromagnetic Effect on Hemozoin for Malaria Diagnosis Computerized Electromagnetic Effect on Hemozoin for Malaria Diagnosis
Walvede Biziya Deli,
Ntsama Eloundou Pascal,
Talla Emmanuel,
Kuitche Alexis
Issue:
Volume 6, Issue 1, June 2018
Pages:
28-34
Received:
14 May 2018
Accepted:
21 June 2018
Published:
17 July 2018
Abstract: In this work we present the heat generated by the super magnetic particle, the waste prevent from the plasmodium degradation. The hemozoin behaviour due to electromagnetic field applied on it will be used as a sensitive method for malaria diagnosis. Hemozoin presents its self in the form of a crystal and which constitutes a pigment synthesised by the malaria parasite with the aim of annihilating the toxic effect ofhematine. In effect, after contamination the plasmodium dwells inside the red blood cells of the host so as to feed itself with the amino-acids obtained by degradation of hemoglobin. But during this “meal” the parasite liberates a waste product in the form of a complex made of porphyrin and iron. In order to prevent that noxious effect, the plasmodium polymerizes the complexes of porphyrin inside a digestive vacuole to finally produce a crystal of a hemozoin not toxic for him. This particle is previously paramagnetic because of the presence of iron in the red blood cells. This paper proposes the modeling of magnetic field effect of hemozoin for malaria detection. The potential effect of the cyclically activated magnetic field was modeled using a thermodynamic framework. Then at the end, generation and diffusion of heat due to the presence of constant cyclically magnetic field have been determined. These to prove how the pull or push forces between the particles of Hemozoin are demonstrated by producing the heat. The energy inside the particle is also taken into consideration in the cell while doing the diagnosis of malaria.
Abstract: In this work we present the heat generated by the super magnetic particle, the waste prevent from the plasmodium degradation. The hemozoin behaviour due to electromagnetic field applied on it will be used as a sensitive method for malaria diagnosis. Hemozoin presents its self in the form of a crystal and which constitutes a pigment synthesised by t...
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