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Before trying to explain what the GAUSS are, it is worth mentioning that the GAUSS is the measure of magnetic flux density but not necessarily the magnetic distance exerted by the body of the magnet to another body. For this need it is more reliable to measure it by the Kilo Grams of support that the magnet presents.

A gauss (G) is a unit of measurement of the magnetic field of the Cegesimal System of Units, named in honor of the German physicist-mathematician Karl Friedrich Gauss (1777-1855) who applied mathematical principles to a magnetic field.

The gauss is the unit with which the magnetic field is measured, it measures the magnetic flux density or also known as magnetic induction while the intensity of the magnetic field is measured by the oersted.

The Gauss rating of a magnet determines how fast it works, and the thickness determines the depth of penetration.

One gauss is defined as one maxwell per square centimeter.
1 gauss = 1 maxwell / cm2

The International System of Units unit of measurement for the magnetic field is the tesla.
10,000 gauss is equivalent to 1 tesla.
10,000 gauss = 1 tesla

Approximate GAUSS examples of…

  • Human Brain: 0.000 0001 gauss (one millionth of a gauss)
  • Earth's surface: 0.31 – 0.58 gauss
  • Earth's core: 25 gauss
  • Refrigerator magnet: 50 gauss
  • Small iron magnet: 100 gauss
  • Small neodymium magnet: 2,000 gauss (0.2 tesla)
  • Electrified magnet or electro-magnet: 15,000 gauss (1.5 tesla)
  • Medical magnetic resonance machine: 70,000 gauss (7 tesla)
  • Strong laboratory magnet: 100,000 gauss (10 tesla)
  • Star Magnetar: 1,000,000,000,000,000 gauss (one thousand trillion gauss or 1 trillion tesla (large scale figures))
  • Neutron star: 100,000,000,000,000,000 gauss (one hundred thousand trillion gauss or 10 trillion telsas (large scale figures)):

The latter is the upper limit to the magnetism studied, there is no magnetic field stronger than that known in the universe.

How to know how many Gauss has a magnet.

A magnet emits 2 different GAUSS measurements.


Some web pages and companies that sell magnets put the Gauss number without mentioning if they are internal or external, for which they put the highest figure in this way without mentioning the external Gauss number.
Many manufacturers of magnetic products do not specify the Gauss number on their products due to the confusion that the rating can cause.


With a GAUSIMETER it is possible to know automatically and exactly how many external GAUSS emits a MAGNET, the GAUSS number can also be calculated by means of a complex mathematical equation of Maxwell.


To know the approximate number of internal gauss, 3.95 must be multiplied by the number of external gauss, but if the resulting number exceeds 12,800 gauss, it will no longer be possible to trust this result, since this is normally the maximum gauss. that can contain a Neodymium or Alnico magnet. The minimum internal force has to be 3,950.

For example.

A 1,000 external gauss magnet will contain very approximately 3,950 internal gauss.

The Gaussian rating of a magnet can be misleading, as the magnetic field strength falls off the surface of the magnet very quickly as it moves away from the target zone.

The magnet by itself does not determine its strength or magnetic flux or total gauss and for this they are considered.

  • The material (Alnico, Smco, NdFeB, Ferrite)
  • The diameter (determines the width)
  • The thickness (determines the flow force)
  • The degree of magnetization.

What penetration depth towards objects or the body do the magnets have with respect to the amount of gauss it contains?

  • Larger magnets create wider but not more powerful fields.
  • It is the thickness that determines the power after the degree of magnetization.
  • The wider the field, the lower the power.
  • A magnet has to be strong enough to penetrate deep into human tissue.

For example, to penetrate deeply it must be…

  • A Ferrite magnet must have at least 3,850 internal gauss equivalent to 987 external gauss.
  • A medium magnetization neodymium magnet easily manages to exceed this minimum so it can reach deeper tissues and to penetrate…
    • 1 to 3" inch which must have a minimum 987 gauss external strength rating.
    • 3 to 6" inches of penetration the magnet shall have a 2,800 to 3,200 gauss external rating.

Research and writing by:

I-MANES® / skuers®
i n f o @ i - m a n e s . com


IMANES® 2013 - 2015

*The information written in this article is from the team's own research to inform the community in the most accurate way on the subject, we are working to investigate, experiment and verify more of this information.

Wait for more information soon...

This medical model is the most valuable and effective of the modern era. It is a discovery made by the Mexican doctor Dr. Isaac Goiz Durán® in 1988 after he managed to understand that diseases cannot live in a neutral environment.

  • Medical Biomagnetism® and Biomagnetic Pair® involve communication through body points to determine, through a binary indicator (extension-contraction) between therapist and patient, the biomagnetic region that is in a dysfunctional state and that has been invaded by pathogenic elements or dysfunctional.
  • From this, the irregular fields can be regulated by means of magnets to restore both Biomagnetic (cellular frequencies) and biochemical (PH - Potential of hydrogen, neurotransmitters, neuroregulators, hormones and enzymes) balance.
  • The method assumes that the vast majority of diseases are caused by a micro infection, that is, subclinical, or macro infection manifested by bacteria, viruses, parasites, fungi, and in turn create or leave syndromes and dysfunctions.
  • The system consists of recognizing altered anatomical points in their PH (hydrogen potential). This recognition is carried out with high-power passive magnets in GAUS (not electrified or connected to electronic machines) that are applied to the patient's body as if it were a biomagnetic scan or scan.
  • Once the points that correspond to organs and tissues that suffer from the distortion have been recognized and confirmed, the therapist impacts the pairs of magnets for 10 to 15 min for each point and they are generally applied simultaneously.
  • The disease is located in the organ or tissue in imbalance between positive and negative charges (greater charge of positive ions or negative ions). Corrected this ionic alteration (leveling the PH of the affected organ), the problem disappears, since it returns to the initial equilibrium point NEN (normal energy level). - Biomagnetism is in charge of this, thanks to its force or energy of polarity; the negative charge is capable of impacting a similar pathological charge, which is canceled when meeting the positive charge. - Viruses can live in acidic environments (ph. between 0 -6.5) - Bacteria can live in alkaline environments (ph. between 7.5 and 14) Neither these nor fungi, parasites or pathogenic microorganisms can live in PH 7, which is the neutral level, thus correcting abnormalities and dysfunctions.

All this theory was developed by Dr Isaac Goiz Duran® and the Medical Biomagnetism Research Center in Mexico City and is endorsed and proven by his patients and studies carried out at the Autonomous University of Chapingo Mexico, University of Loja in Ecuador, Spanish Association of Medical Biomagnetism, Mexican College of Medical Biomagnetism as well as health authorities from countries such as Ecuador, Chile and Cuba.

Note: Until March 2014, more than 500 thousand patients had been treated in consultation by Dr. Isaac Goiz Durán and more than 15 million patients with this therapy worldwide.

The Gauss is a unit of measurement, this unit is used to measure the density of magnetic flux or magnetic induction. This unit is named after the German mathematical physicist Karl Friedrich Gauss, who developed and applied mathematical principles to a magnetic field in 1840.

The magnetic flux is the amount of magnetism exerted by the magnet or a magnetized body, but this amount is quickly lost with distance and the latter is the most important observation to understand that the gauss is not the unit that should matter most to the Biomagnetism.

In fact, the gauss are better concentrated and are higher in small magnetized bodies, since the larger the magnet, the more it will disperse the magnetic field and therefore the gauss will be distributed always concentrating at the end of the mass, being the center of the magnet the one with the least gaussage charge present.

The other condition point of the gauss in a magnet will be its thickness, being that the wider it is, the stronger the gaussage value will be.

The third point, if it is not that it should be the first to determine the high or low gaussage of the magnet, will be both the material and the quality and degree of magnetization.

For example, in Neodymium magnets, which are really an alloy of NdFeB (Neodymium + Iron + Borro) to which a solid protection must be placed, which is generally Nickel, the degree of magnetization ranges from N35 to N52, being that the most recommended grade for Biomagnetism is the medium grade, N42.

In the following image we can see a Gaussmeter measuring the Gaussian peak at the ends of two NdFeb N42 magnets of different sizes. In the first photograph you can see a 75mm X 5mm magnet showing 2058 gauss, while in the second photograph we see a 25mm X 5mm magnet showing 3518 gauss, that is, between these magnets there is a difference of 1500 more gauss in the little.

The Gauss measurement of a magnet can be misleading, since the magnetic flux falls very quickly from the surface of the magnet while the pipette moves away from the same magnet, therefore this measurement is variable, determining the area of the magnet where it is taken and the distance .

On the same photograph, let us imagine that by separating the pipette 0.5 cm from the magnet, 50% of the gauss charge will be exhausted and by separating 4 cm it will have been exhausted at 90%, which would only leave 350 gauss for the small magnet at this separation. .

This is why the gauss measure should not be as relevant as it is believed. The only criterion that must be taken into account about how many gauss a magnet must have to be effective in Biomagnetism is the fact that a magnet has a minimum of 1000 gauss, we return to the primary and basic golden rule that the father of Medical Biomagnetism, the doctor Goiz dictates.

There are no permanent magnets with more than 6500 gauss!

Urbanly, it has been speculated and assimilated with the enormous amounts that a magnet must have to be effective in Biomagnetism. These myths started from the fact that Doctor Goiz talks about a magnet being effective for therapy in the range of 1,000 to 10,000 gauss. Even in his first book "The Biomagnetic Pair" he talks about it and he was not wrong if not quite the opposite.

At that time of the discoveries of his first pairs, it was extremely difficult to obtain a gasometer as well as technical information on the magnets, so he limited himself to measuring the gaussage of the magnets with kinesiology and the result he obtained was obviously the internal gaussage of the magnet, but when doing it with the gaussmeter the external gaussage is measured.

The internal gaussage of a magnet is almost 4 times greater than the external gaussage, so to know the internal gauss it is enough to multiply the number that the gaussmeter shows by 3.9.

This is where the excessive amounts of gauss that a magnet can have started, at the same time, many magnet peddlers took advantage of saying that their magnets had 5, 15,000 and even 20,000 gauss in order to sell without any serious justification or technique. Even many therapists were the ones who were selling the magnets with supposed gaussages, since they were just reselling the magnet without really knowing the true gauss of these magnets.

The most powerful magnets that exist to date are those of NdFeb. The appearance of this magnet is

It goes back to 1982, when General Motors together with an important Japanese group discovered the use of NdFeb and its ability to permanently magnetize it, then they patented it.

NdFeb magnets are permanent magnets that cannot naturally reach more than 6,500 gauss. The way to bring them to a higher gaussage is by electrifying them, but this would already be a risk to Biosafety and health because it becomes radiation if it is directly exposed to the human body.

The following image shows a 45mm X 35mm NdFeB N45 magnet that is very close to reaching 6 thousand gauss. This magnet is dangerous since it has a holding force of almost 90KG which was used in the office of a prominent therapist to impact patients who were not having improvement with Biomagentism as well as regular patients in the office. The conclusion was that the performance obtained with this magnet was no better than that obtained with regular NdFeb magnets.

So what is the key element to notice in the magnets for Biomagnetism?

We have seen that although it is essential that magnets have a minimum magnetic flux or greater than a thousand gauss, the determining factor in therapy is the distance of the magnetic field that the magnet can exert. This distance will be determined firstly by the length or diameter of the magnet and secondly by its thickness.

A magnet has to be strong enough to penetrate deeply into human tissues and hence also the size of the area of the area or organ to be treated. Thus, the determining indicator to know the distance of penetration will be the KG of subjection, which are determined by the manufacturer or can be found with a scale in reverse. The greater the size of the magnet, the greater KG of clamping or force it will have and, therefore, greater penetration.

With the purpose of having an equation that determines a proper form as an indicator of the magnets to use and take into account in biomagnetism, a server, and author of the research, I Joe Pardo have determined as a solution the biomagnetic gauss unit, unit different from the gauss unit, where I have come to conclude with the following formula:

((external gauss) x (clamping force)) / (4)
  1. The external gauss are taken, the most correct way to take them is with a gaussmeter, although they can also be obtained by means of a complex mathematical formula, which gives us an approximation where to make the equation, the measurements of the magnet and the flux must be applied. residual, in the case of NdFeb it is 13000 and in ferrite it is 4000 in a medium magnetization.
  2. Multiply the external gauss by the clamping force (direct clamping to a non-porous iron plate, not to another magnet.)
  3. Divide the amount by the fourth force of physics with the number 4.
    In this way, the therapist can rely on a determining measure for the technique and its exercise called Biomagnetic Gauss, which should always be at least 1,000 biomagnetic gauss and will know that the higher the number, the greater the penetration distance in the body will have the magnet.
As examples in the penetration distance with NdFeb fields:
A 3,000 gauss biomagnetic magnet has a penetration distance of 3.5 cm.

A 5,000 gauss biomagnetic magnet has a penetration distance of 4.5 cm.

A 7,000 gauss biomagnetic magnet has a penetration distance of 6.5 cm.

A biomagnetic 11,000 gauss magnet has a penetration distance of 8.5 cm.

A 13,000 gauss biomagnetic magnet has a penetration distance of 9.5 cm.

A 17,000 gauss biomagnetic magnet has a penetration distance of 11 cm.


However, after 10,000 gauss biomagnetics, the penetration distance ratio is less and less.

By having a magnet with, say, 11,000 biomagnetic gauss, the most relevant parameter than the distance would be the terrain it covers, since due to the high measure of biomagnetic gauss we can assume that it is a large magnet and therefore large organs must be covered with a large magnet unless you already have a fine sense of placement on the point to be treated, however with the size we will eliminate the margin of error due to poor positioning.

Now, as for the ferrite magnet, this material has a different behavior in its magnetic field, it has a greater strength but more limited. That is to say, it will be difficult to obtain a ferrite magnet greater than 2 thousand external gauss and 5 thousand biomagnetic gauss, in addition to the fact that it would be very large and heavy.


As examples in the penetration distance with Ferrite fields:
A 1,000 gauss biomagnetic magnet has a penetration distance of 4.5 cm.

A 1.2 thousand gauss biomagnetic magnet has a penetration distance of 5.5 cm.

Update: April 10, 2015
All the information contained in this article is typical of the author's intellect, his experience and research, and there are cases of people who copy it to claim it, falling into plagiarism, which in addition to being a lack of morals is a constitutional crime.

Geographic Poles and Magnetic Poles! What is the real Pole?

The earth has a NORTH POLE and a SOUTH POLE, these poles are called GEOGRAPHICAL POLES and, like living beings and humans, we also have A NORTH POLE and A SOUTH POLE similar to the planet earth on which we live, however, in electronic devices. measurement is BACKWARDS, the poles are inverted and are called MAGNETIC POLES... why is this? Very simple.
Since the earth is a gigantic magnet with its NORTH POLE located above Europa, then a MEASURING MAGNET such as a compass must mark NORTH with its SOUTH side, since opposite charges attract, so if If a magnet wants to take us to the North Pole, we must do it with the negative side, that is, the SOUTH side.

The magnetic poles must be different from the geographic ones, because if this were not the case, a compass would not work correctly, that is why the magnetic poles are marked inversely than the geographic ones. People who have conflicts about which is the appropriate POLO is because they ignore this simple information.

Now, living beings and human beings are made in the likeness of mother earth, our polarity is the same and if we want to level the energy charges of the body, let's say alkalinity has a negative charge (-) (more hydrogen) and acidity that is positive (+) (minus hydrogen ions), we must do it by pushing the polarity equal to that of the earth and in this way there GEOGRAPHICAL NORTH and GEOGRAPHICAL SOUTH-

With this foundation, one can realize how some therapists and therapies apply magnets in a contrary way, not to mention that they also do it unipolarly.

IN CONCLUSION: The easiest and most appropriate way to locate the polarity of a magnet to use it under the Biomagnetic Pair technique of Medical Biomagnetism is to face a magnetic compass to the magnet, where the compass indicates north means that it is the negative north pole which it is lined or marked generally black.

The justification is found in the principles of physics and in the distension and contraction of the body due to levels of imbalance when impacting with a magnetic field greater than 1000 gauss of magnetic flux, this being a magnet of at least 3kg. subjection according to the statements of Dr. Isaac Goiz.

For this, the alkalosis of the body is sought with the negative pair, that is, the point with a high pH, the way to identify it will be known because the right foot will shrink, this is due to the cutting and contraction of the energy communication when pushing the load with the magnet in negative at an alkaline point, it is summarized in the contraction of the muscle mass, it is the potassium in the muscle that allows the hemi-body or the foot to shorten in the presence of magnetism against the imbalance of charges. That is when you should look for the acidotic resonance point with the + pole (whether north or south, whatever you want to call it) to push the charges to the ph 7.4 level, which is the neutrality or ph of the water.

The other Biomagnetism therapies are MONOPOLAR, which means that in biomagnetism one pole + and one - must ALWAYS be impacted, otherwise there can be no therapeutic effect depending on the therapy.

T h e  T e a m  O f  I - M A N E S . c o m / S k u e r s ®


Geographic Poles and Magnetic Poles ! Which is the right Pole?

The earth has polo NORTH and SOUTH POLE, like living beings, our head is north and feet is the SUR, but measuring devices is BACKWARDS, and are called MAGNETIC POLES ... why is this? very simple.

Since the earth is a giant magnet, the NORTH POLE  ranks up from Europe, then a MAGNETIC MEASUREMENT like the compass dial´s the SOUTH , since opposite charges attract, so if you a magnet intended to take us to the North Pole must do so with the negative side surface.

The magnetic poles should be different geographic, because if it were not so, a compass not work properly, why are the magnetic poles reversed the geographical invested. People who have conflicts about what is right POLO is because they ignore this simple information.

Now, living beings and human beings are made in the likeness of Mother Earth, our polarity is the same and if we nivelas energy charges the body, say the acidity that is negative (-) (less hydrogen) and alkalinity is positive (+) (more hydrogen), we must do the same polarity pushing the earth and thus the NORTH and SOUTH REAL REAL.

On this basis can one account as some therapists and therapies applied in a manner contrary magnets and not to say that so do unipolar.


Always, throughout the ages from the great Egyptian empire until our recent days there have been theories and practices that impact magnets may achieve therapeutic, healing and even medicinal and curative effects, but so far they had merely been magnets without specifications material magnetization, power, technique or methodology applied unipolar mind.

Unlike simply applying magnets to the body for therapeutic purposes, which was discovered by Dr. Isaac Goiz in magnetism was the BiPolar application and this is what revolutionized use above knowledge were passed him by Dr. Richard Anton Broeringmeyer, physical investigator hired by NASA and was a pioneer in the research and development of theories and practices to improve health with magnetic fields experimenting and getting the results astronauts return from their missions of space when they arrived with nutritional and shortening in the hemicuerpo decompensation.

The great discovery of Dr. Goiz is watching BIPOLARITY in pathologies. That is, a disease is caused by an energy imbalance and this imbalance creates two points of imbalance in the body, one on the acidity and another in the alkalinity, one negative and the other positive, the point of balance is generally supported in the hemicuerpo opposite each other. This means that to regenerate health or treating a pathology must find BIOMAGNETICO® PAR points, ie the magnets impact the body one of the positive sides of the downside, this discovery by Dr. will Goiz hidrogeniones loads are pushed, the pH (potential of hydrogen) Cell inner which must be a neutral pH of 7.4.

The Biomagnetismo Médico® and Par Biomagnetico® relieve symptoms but do not seek to neutralize the energy dysfunction most likely cause the symptoms, or if deeper dysfunction may be the energy that sustains another energy disjunction his look because this symptom or health problem . So the pair Biomagnetico® balances and neutralizes the problem and not the cause of the problem.

 Note: For optimal use of this technique is the most desirable resort to a therapist student Mexican College of Medical Biomagnetismo or if you have completed the study of this therapy in a teaching center or university or institution authorized by the Mexican College or Dr. Isaac Goiz.

The Biomagnetismo Médico® and Par Biomagnetico® techniques are discovered by Dr. Isaac Goiz and are registered for the same brands and the Mexican College of Medical Biomagnetismo and like all the research and publications out there about these techniques are protected intellectual property.



he justification lies in the principles of physics and distension and contraction of body imbalance levels on impact with a higher magnetic field than 1000 gauss magnetic flux this being a magnet minimum 3kg. clamping according to the findings of Dr. Isaac Goiz.

For this is for the negative torque alkalosis body, ie the point with a high pH, the way to identify it be known that the right foot will shrink, this is due to cutting and contraction of energy communication to drive the load with the magnet in negative in an alkaline extent summarized in the contraction of muscle mass, is the potassium in the muscle allowing the side of the body or foot to shorten presence magnetic against unbalanced loads. Then is when you should seek the point of acidotic resonance with the + (either north or south, as you want to call it) to push the loads to 7.4 ph level that is neutral or ph water.

Other therapies are MONOPOLAR Biomagnetismo means that the magnetism should ALWAYS hit a pole + and one - otherwise there can be no therapeutic effect as therapy.


A T E N T I O N   T H E R A P I S T S 

Most important for the practice of Biomagnetismo should not be the extent to which Gauss is the indicator of the magnetic flux if should not be fixed clamping force in Kg., And this must be for trips of 3 Kg but the magnet whether to always have at least 1000 gauss.


The clamping force Kg we determine the distance of penetration of magnetism in a body. So obviously the more clamping Kg have magnet be more penetration distance into the body.


"As a magnet exerts 1000 gauss and 3 kg holding at least this will be perfect for therapeutic purposes"


Now of course that the higher clamping force will be better for the patient and therapist and moreover we have the size of the magnet which among biggest size is therefore more encompassing. So the size / power combination is most important and so on I-manes® and Skuers® are designed the perfect magnets to cover these requirements.

E l e q u i p o  d e  I - M A N E S. c o m / S u k e r s ®




A gauss (G ) is a unit of measurement of the magnetic field from cegesimal System of Units, named after the german physicist - mathematician Karl Friedrich Gauss ( 1777-1855 ) who applied mathematical principles to a magnetic field.

The gauss is the unit with the given magnetic field measurement , measuring magnetic flux density or magnetic induction aka while the intensity of the magnetic field measured by the oersted .

Gauss 's rating of a magnet determines the speed with which it works , and the thickness determines the depth of penetration.

A gauss is defined as a Maxwell per square centimeter.
1 gauss = 1 maxwell / cm2

The measurement unit of the International System of Units for the magnetic field is the tesla .

10,000 gauss is equivalent to 1 tesla .
10 000 gauss = 1 telsa

GAUSS approximate examples of ...

Human Brain : 0.000 0001 gauss
( one millionth of a gauss )

Surface of the Earth: 0.31 to 0.58 gauss

Earth Core : 25 gauss

Refrigerator Magnet : 50 gauss

Small iron magnet 100 gauss

Small Magnet Neodymium 2000 gauss ( 0.2 telsa )

Electrified magnet or electro - magnet: 15 000 gauss (1.5 telsa )

Medical MRI machine : 70 000 gauss (7 telsa )

Powerful Magnet Laboratory 100 000 gauss (10 smooth )

Star Magnetar : 1 000 000 000 000 000 gauss
(one trillion gauss or smooth 1 trillion ( long scale figures ) )

Neutron Star : 100 000 000 000 000 000 gauss
(one hundred thousand trillion or 10 trillion gauss telsas ( long scale figures ) ) :

The latter is the upper limit to magnetism studied , there is a magnetic field stronger than which there is knowledge in the universe.


A magnet emits two different measures of GAUSS .


Some websites and companies that sell magnets put the number of gauss without mentioning whether they are internal or external , so put the highest figure in this way do not mention the number of external Gauss .

Many manufacturers of magnetic products do not specify the number of Gauss in their products because of the confusion that a rating may cause .

With a gaussmeter can automatically find and correct issues a few external GAUSS MAGNET also can calculate the number of GAUSS using a complex mathematical equation of Maxwell.

To find the internal gauss ballpark figure 3.95 is multiplied by the number of external gauss , but if the resulting number exceeds 12 800 gauss , you can no longer trust this result , since this is the maximum aje gauss may contain a neodymium or Alnico magnet . The minimum internal force has to be 3950 .

As exaple..

A 1000 gauss magnet outside contain very approximately 3950 internal gauss .

The Gauss rating of a magnet can be misleading , Since the magnetic field strength falls off very rapidly from the surface of the magnet while it moves away from the target area.

The magnet itself does not determine their strength or magnetic flux or total gauss for this are considered.

1. The item ( Alnico , Smco , NdFeB , Ferrite )
2 . The diameter ( determines the amplitude )
3 . The thickness (which determines the flow force )
4 . The degree of magnetization.


Larger magnets create larger fields but no more potent.

Is the thickness that determines the degree of power after magnetization .

The more comprehensive the lower the power field .

A magnet has to be strong enough to penetrate deep into human tissue.

For example, to penetrate to depth should be ...

A Ferrite magnet least 3,850 gauss should have equivalent internal external 987 gauss .

A neodymium magnet average magnetization mind gets easily exceed this minimum so it can reach deeper tissues and to penetrate ...

1-3 " inch must have a minimum rating of 987 gauss external force .

3-6 "inches of penetration the magnet must have 2.800 to 3.200 gauss external rating .

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