In the experimental phase a productive and effective strategy first comes in "prospecting". Examples include "divining rods" as is the case for H2O detection as well as the more advanced and still amiable/developmental electromagnetic tonal resonance. The parameters of which consit of the known fact that elements have a unique discharge upon cotact with electric shock or "input" given its monitored and data collected the returning signature would describe total composition and in more advanced methods make-up molecularly and atomically. Given that the equation for such observations are set and proven via sequential testing and control groups within a lab.
The next phase which is still let us say in development would be the large scale usage of emp scaler pulsars as a carrier/return wave to detect certain key elemental within lets us say the ocean floor, mountain range etc. etc.
The application of such techniques is feasable given advances spectral analysis, electrical discharge return rates and the design of equipment which wll carry the given function and monitoring.
The primary concern is outside the control group which would require adjusting the carrier/scaler wave to compensate for external facors such as saline water displacion, heavy air or other external stimuli that would offset the response. However, the method is applicable given the equation set lists are in place and the correct read out complete with variance, polynomials and external factors are processed and recieved into a digital mapping and co-ordinance device.
Patents as well a governmental orginizations are already scurring to secure rich sea bed deposits within the mid atlantic ridge among other places. Needless to say the amount of minerals plus fertilizers that could becompounded from such new mining techniques as well as the result in immense wealth is comparable to the discovery of the americas and the resulatant struggle to secure said sea bed deposits.
The equation list will consist of a beta wave with leng designated by tonal frequency input with enviomental displasions. Then synthesize the return readout with the data collected from lab test to what said area is composed of post emp pulsar blast.
The radials of such blast can be calibrated from 15 meters to let us say a mega watt spread of 15-35 km's given the wave pattern is set ansd calculations are in place. Sensory arrays would primarly consist of insulated probes imbeded with the soils and sub soils and calibrated at which crest the emp will pass. u ~ n
Three dimensional models are still applicable and is recommended during sequencing of the wave carriers and the reciever platforms whether the be probes or implace rod housing groups.
The equation set lists include the sigma wae offset by polarity of metallic to bases. Based on the differential between the registered wave polarity upon detonation the general composite sketch would then be place through a processor were the polarity charge is dissiminated and coded dependent on the variables recieved and the tonal signature as well as length of blast with dimensionals as well as duration and magnitiude in wattages and receptors calibtrations.
The Data..........sorry can't compute in three dimensional space. On a x,y,z axis
Phase 1
1- spatials and outer environs. "Differentials to be calculated upon environ"
0 - Calibrated Electromagnetic Pulsar Wave
*- Sensory receptors "AS WELL AS TARGET GROUP"
Sensory array and blast center.
Alpha and Omega Receptors- ORIGIN AND END POINT RECEPTORS
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Factoring with Alpha and Omega input []
Chemical Composition, Scaling based on Carbon Base Lining and Magnetic Reactivity and Radiance
Using carbon baseline and electro-reactivity monitoring control groups using carbon as the base line within a scale and set equation graphs.
Either on a low curve or high curve.
the principle on which an electromagnetic crane works is electromagnetic induction
a microwave or a x-ray. Because when the microwave for example is plugged in or turned on is electrical energy and when the food is being cooked is when electromagnetic energy is used. Hope I Could Help :]
EMSB stands for Electromagnetic Shielding Box, which is used in electrical and electronic applications to protect sensitive components from electromagnetic interference (EMI). This shielding prevents external electromagnetic fields from disrupting the operation of the devices within the box, ensuring reliable performance and adherence to regulatory standards. EMSBs are commonly used in various industries, including telecommunications, aerospace, and medical devices.
A directional coupler is a passive device used in radio technology. The purpose of a directional coupler is to couple electromagnetic power to be used in another circuit.
Microwaves are electromagnetic radiation. They are electromagnetic waves, and they are transmitted like light or radio waves, both of which are forms of electromagnetic radiation. The radiation leaves the microwave source in waves, and this radiation will travel effortlessly through a vacuum, and with a bit of loss through air.
Ruby Mining
coal mining, gold mining
Heavy equipment used for mining any natural resource from the earth is used for mining diamonds.
Cyanides (NaCN or KCN) are not used in uranium mining and recovery, but it is used in gold mining.
Plutonium is not commonly used in gold mining. Plutonium is a highly radioactive element that is used in nuclear reactors and nuclear weapons, but it is not typically associated with gold mining processes.
Your answer depends on the type of diamond mining that interests you. The types are Artisanal Mining, Hard Rock Mining, Marine Mining, Open Pit Mining and Placer Mining. You can read about the equipment used in each type of mining below: http://www.allaboutgemstones.com/diamond_mining.html
No. Presently electromagnetic brakes are not used in cars but the can be used If I may finish that..on trailers
The answer is either placer mining, strip mining, underground mining, spoil bank mining or open pit mining
An area where most of the land is used for mining is known as a mining district or a mining region. These areas are characterized by extensive mining activities, infrastructure to support mining operations, and regulation specific to mining industry. Examples include the Pilbara region in Australia for iron ore mining and the Witwatersrand Basin in South Africa for gold mining.
Modern mining method..
Gold mining typically involves both surface mining and underground mining. Initially, surface mining techniques such as panning, sluicing, and dredging are used to extract gold from shallow deposits. As the easier-to-access gold becomes depleted, underground mining methods like shaft mining and drift mining are employed to access deeper ore deposits.
The three types of mining -strip mining,open pit mining,and shaft mining