1) The document describes a method called Electro Magneto Concentration (E.M.C.) that uses polarized magnetic fields to concentrate force fields.
2) By adding complementary magnetic fields in a diametric configuration, the radial field can be forced into a sinusoidal oscillation proportional to the Earth's electromagnetic field.
3) Mathematical formulas are provided to calculate the concentrated force field based on factors like the number and size of base magnetic fields and interpolated fields between them.
Using an ideal Lagrangian relaxation scheme for magnetic fields we investigate the formation of current concentrations for various magnetic field configurations. For sufficiently braided fields Parker (1972) hypothesizes the formation of singular current structures and subsequent reconnection. Here we find that even for highly braided fields current concentrations are well resolved and of finite magnitude. In presence of magnetic nulls, however, we confirm previous results of singular current structures at the nulls.
Fault zone detection using Electrical prospecting (Resistivity Method)Adithya Shettar
Based on : Villani, Fabio, and Vincenzo Sapia. "The shallow structure of a surface-rupturing fault in unconsolidated deposits from multi-scale electrical resistivity data: The 30 October 2016 Mw 6.5 central Italy earthquake case study." Tectonophysics 717 (2017): 628-644.
Available at : https://www.researchgate.net/publication/318896772_The_shallow_structure_of_a_surface-rupturing_fault_in_unconsolidated_deposits_from_multi-scale_electrical_resistivity_data_The_30_October_2016_Mw_65_central_Italy_earthquake_case_study
Using an ideal Lagrangian relaxation scheme for magnetic fields we investigate the formation of current concentrations for various magnetic field configurations. For sufficiently braided fields Parker (1972) hypothesizes the formation of singular current structures and subsequent reconnection. Here we find that even for highly braided fields current concentrations are well resolved and of finite magnitude. In presence of magnetic nulls, however, we confirm previous results of singular current structures at the nulls.
Fault zone detection using Electrical prospecting (Resistivity Method)Adithya Shettar
Based on : Villani, Fabio, and Vincenzo Sapia. "The shallow structure of a surface-rupturing fault in unconsolidated deposits from multi-scale electrical resistivity data: The 30 October 2016 Mw 6.5 central Italy earthquake case study." Tectonophysics 717 (2017): 628-644.
Available at : https://www.researchgate.net/publication/318896772_The_shallow_structure_of_a_surface-rupturing_fault_in_unconsolidated_deposits_from_multi-scale_electrical_resistivity_data_The_30_October_2016_Mw_65_central_Italy_earthquake_case_study
Short Normal Log is the type of Electrical Survey which was invented by the Schlumberger Brothers in 1927. And later it was replaced by Induction log and Laterolog in 1950s and 1960s.
Magnetic field line braiding in the solar atmosphereSimon Candelaresi
We study the effect of the magnetic field line braiding in the solar atmosphere using topological methods. By measuring the topological entropy of the magnetic field line mapping we show that footpoint motions are capable of inducing highly non-trivial braided structures, which has a fundamental effect on the formation of current layers. Those braids can reach further up in the solar atmosphere, through which energy is transported.
Depending on the structure of the field close to the photosphere, such energy transport can be very efficient.
Interfacial fracture of Nanowire of lithium ion batteriesRohit Srivastava
This paper analyzes detachment of NW electrodes from CCs during electrochemical cycling. We implemented finite element simulations to calculate the energy release rate associated with the propagation of a surface flaw during lithiation. The simulations also reveal the dependence of the energy release rate on the crack length, aspect ratio, NW radius, and yield strength.
Talk given at the AAS meeting in DC (#207, I think) about the Velocity Dispersion Distribution Function and its feasibilty to study the dynamical evolution of early-type galaxies in rich clusters.
Mobiles Apps and You is a Presentation by Mahendra Sharma from NicheTech
It describes the market scenario about Mobile Operating Systems since last few years.
How android is capturing the major market share.
How is that creating opportunities for the students in Computers and IT.
The presentation also explains how to make a successful app.
How you can check app performance.
How can you earn from the app
Short Normal Log is the type of Electrical Survey which was invented by the Schlumberger Brothers in 1927. And later it was replaced by Induction log and Laterolog in 1950s and 1960s.
Magnetic field line braiding in the solar atmosphereSimon Candelaresi
We study the effect of the magnetic field line braiding in the solar atmosphere using topological methods. By measuring the topological entropy of the magnetic field line mapping we show that footpoint motions are capable of inducing highly non-trivial braided structures, which has a fundamental effect on the formation of current layers. Those braids can reach further up in the solar atmosphere, through which energy is transported.
Depending on the structure of the field close to the photosphere, such energy transport can be very efficient.
Interfacial fracture of Nanowire of lithium ion batteriesRohit Srivastava
This paper analyzes detachment of NW electrodes from CCs during electrochemical cycling. We implemented finite element simulations to calculate the energy release rate associated with the propagation of a surface flaw during lithiation. The simulations also reveal the dependence of the energy release rate on the crack length, aspect ratio, NW radius, and yield strength.
Talk given at the AAS meeting in DC (#207, I think) about the Velocity Dispersion Distribution Function and its feasibilty to study the dynamical evolution of early-type galaxies in rich clusters.
Mobiles Apps and You is a Presentation by Mahendra Sharma from NicheTech
It describes the market scenario about Mobile Operating Systems since last few years.
How android is capturing the major market share.
How is that creating opportunities for the students in Computers and IT.
The presentation also explains how to make a successful app.
How you can check app performance.
How can you earn from the app
Investigation and optimization of edm performance measures using empirical da...eSAT Journals
Abstract In this paper research is aimed to investigate and optimization of EDM performance measures in order to find out best ideal EDM electrode having higher material removal rate, improved surface finish and lower electrode wear rate. For this four EDM electrodes of four different materials (viz. Gr, Cu, Br and Al) are developed by three different manufacturing methodologies. Electrode design is very time consuming process and done interactively using CAD system. In this research work Vertical Milling Machine, Net Shape Casting and Die Sinking EDM do EDM electrodes fabrication. After the electrode Fabrication testing of electrodes is done on Die Sinking EDM. For optimization two different advanced methods of optimization SAW & TOPSIS are used for analysis of EDM performance measures and to predict optimal choice of each EDM electrode. The analysis of both optimization methods reveals Copper is best EDM electrode followed by Brass, Aluminium and Graphite. Experimental results are provided to verify this approach. Key Words: EDM, MRR, EWR, SR, OPTIMIZATION, SAW, TOPSIS
It is phenomenon by virtue of which a current produces a magnetic field. A straight current produces a circular magnetic field and a circular current produces a straight magnetic field at the centre of the circular coil.
Magnetism and Matter,Current loop as a magnetic dipole and its magnetic dipo...Oleepari
Current loop as a magnetic dipole and its magnetic dipole moment,magnetic dipole moment of a revolving electron,
bar magnet as an equivalent solenoid, magnetic field lines, earth's magnetic field and magnetic elements.
This presentation is about Array of Point sources which is a one of the topic of Antennas. The presentation was prepared in 2017.
Antennas subject in 7th sem (2010 scheme - now outdated) of VTU.
Magnetic Helicity Fluxes and their Effect on the Solar DynamoSimon Candelaresi
Magnetic helicity fluxes in turbulently driven $\alpha^{2}$ dynamos are studied to demonstrate their ability to alleviate catastrophic quenching. A one-dimensional mean-field formalism is used to achieve magnetic Reynolds numbers of $10^{5}$. We study both diffusive magnetic helicity fluxes through the mid-plane as well as those resulting from the recently proposed alternate dynamic quenching formalism. By adding shear we make a parameter scan for the critical values of the shear and forcing parameters for which dynamo action occurs. For this $\alpha\Omega$ dynamo we find that the preferred mode is antisymmetric about the equatorial plane. This is also verified in 3-D direct numerical simulations.
www.nordita.org/~iomsn/
2. Polarization status
N
S
The polar axis is “Diametrically Radial” based around a
common axis of “zero”, a point local horizontally, and
vertically centered based around the polar size.
When configured to form an opposing state, a magneto
field drift occurs, where the field drift remains
proportional to the re-sized polar size.
3. Polarization status
N
S
Extending the “Diametric field” by “adding” additional
complementary fields, it is possible to FORCE the
“Radial” field into a sinusoidal field
4. Polarization status
N
S
Extending the “Diametric field” by “adding” additional
complementary fields, it is possible to FORCE the
“Radial” field into a sinusoidal field
F = 1/ (3*10^8 M/s)
Frequency
5. Polarization status
N
S
Utilizing a “magneto shield” the “radial” polarization is
force to oscillate, where the oscillation is directly
proportional to the Earths E.M. Field.
F = 1/ (3*10^8 M/s)
Amplitude Resistance
Field (GFn)
7. Polar field calculations
• A “Three” factor “polar” state exists when the
“radius” of each consecutive field is
proportional at 45 Degree’s to the Zero Axis.
• Resulting ((x+xn)+(x+xn-1))*n^-1 d
• Using the nominal values of 20,15,10 a
concentrated field output of 155 is achieved at
V1.
• Applying “GFn = F1
(n4)x (n(GF))” for the inter-
polarization results in H1 polar field of 2585
8. Polar field calculations (2)
• Combining the “Diametric” computation of
“(((x+xn)+(x+xn-1))*n^-1)” to the Gaussian
computation of “GFn = F1
(n4)x (n(GF))”
• FC = GF((((x+xn)+(x+xn-1))*n^-1 )*(F1
(n4)x (n(GF)))
9. Diametric Radial Concentration
FC = GF((((x+xn)+(x+xn-1))*n^-1 )*(F1
(n4)x (n(GF)))
Field
Concentration
Gaussian
Field
Number of Base Fields
Number of Interpolated
Fields
V1 + V2 Status
Field effect at H3