The buzz surrounding 5G technology has been building for a while now.

With faster download speeds, improved connectivity, and exciting new technologies on the horizon, it’s no wonder that people are so excited about the possibilities that 5G can bring.

However, there is also growing concern about the potential health risks associated with this new form of radiation and its effect on human beings.

As such, it’s becoming increasingly important to measure 5G radiation levels so that we can better understand its impact on our health and well-being.

While there has been some research conducted on this topic already, much more needs to be done in order to fully understand the risks associated with 5G technology.

How Does 5G Radiation Differ from Previous Generations?

In order to properly understand how to measure 5G radiation levels, it’s important to first understand how this type of radiation differs from previous generations.

Unlike previous generations of mobile networks (such as 3G or 4G), which operate at frequencies below 6 GHz, 5G networks operate at much higher frequencies – up to and even beyond 100 GHz in some cases.

This high frequency means that the waves used by these networks are much shorter than those used by previous generations.

The Importance of Measuring Radiation Levels

Given these differences between previous generations of mobile networks and the new world of high-frequency waves brought about by 5G technology, it’s clear that measuring radiation levels is more important now than ever before.

By doing so, we can better understand the risks associated with 5G radiation and take steps to mitigate those risks where possible.

With more and more people connecting to 5G networks every day, it’s crucial that we have reliable ways of measuring radiation levels in order to ensure the safety of both individuals and communities as a whole.

So, measuring 5G radiation is essential due to the following reasons:

• It allows individuals to assess their personal exposure levels to electromagnetic fields (EMFs) emitted by 5G infrastructure. By understanding their exposure, individuals can make informed decisions regarding their health and take appropriate measures to minimize any potential risks.
• Measurement data helps in gathering empirical evidence regarding 5G radiation levels in different locations. This data can contribute to ongoing research on the potential health effects of 5G and assist regulatory bodies in establishing guidelines and safety standards.

Tools and Equipment for Measuring 5G Radiation

To accurately measure 5G radiation, you will need specific tools and equipment designed for this purpose. Here are some commonly used devices:

RF Meters

RF (Radio Frequency) meters are handheld devices that measure the strength of electromagnetic fields in the radiofrequency range.

They are widely used for assessing radiation levels emitted by various wireless devices, including 5G networks. RF meters provide real-time readings of electromagnetic field intensity and are equipped with sensors designed to detect specific frequency ranges.

RF meters come in different models and have varying features. Some models offer a wide frequency range, allowing you to measure a broad spectrum of radiofrequency radiation, including those emitted by 5G networks.

These meters typically display the readings in units such as volts per meter (V/m) or milliwatts per square meter (mW/m²), providing you with a quantitative assessment of the radiation levels in your environment.

When using an RF meter to measure 5G radiation, it is essential to choose a model that covers the frequency bands used by 5G networks in your region. Additionally, ensure that the meter has a sufficient range and sensitivity to accurately detect and measure the radiation emitted by 5G infrastructure.

Check out my picks for the best RF measuring detectors. I have reviewed each one of them after proper testing.

Spectrum Analyzers

Spectrum analyzers are powerful tools used for analyzing and visualizing the frequency spectrum of electromagnetic signals. They provide a comprehensive view of the different frequencies present in the environment, allowing for a detailed assessment of 5G radiation levels.

Unlike RF meters, which provide single-point measurements, spectrum analyzers display a graphical representation of the frequency spectrum, showing the strength of signals at different frequencies. This capability enables you to identify the specific frequency bands used by 5G networks and assess their intensity.

Spectrum analyzers are available in various forms, ranging from handheld devices to more advanced benchtop models with extensive features. They offer greater flexibility in terms of frequency range, resolution bandwidth, and signal analysis capabilities.

When using a spectrum analyzer for measuring 5G radiation, it is crucial to select a model that covers the frequency bands allocated to 5G technology in your region. This ensures accurate detection and analysis of the relevant signals.

EMF Detectors

EMF (Electromagnetic Field) detectors are versatile devices used for measuring the intensity of electromagnetic fields across a wide range of frequencies. They are valuable tools for assessing both low-frequency and high-frequency electromagnetic radiation, including that emitted by 5G networks.

EMF detectors come in various forms, including handheld devices and wearable accessories. They use sensors and probes to detect electromagnetic fields and provide readings of the field strength.

Some EMF detectors are specifically designed to measure high-frequency radiation, making them suitable for assessing 5G radiation levels.

When choosing an EMF detector for measuring 5G radiation, consider its frequency range, sensitivity, and accuracy. Look for models that cover the frequency bands used by 5G networks and provide reliable measurements within the desired range.

It is important to note that while RF meters, spectrum analyzers, and EMF detectors are commonly used for measuring 5G radiation, the specific tools required may vary depending on the desired level of accuracy and the frequency bands used in your region.

Consulting with professionals or experts in the field can help you select the most appropriate tools for your measurement needs.

Steps to Measure 5G Radiation

Now that you have an understanding of the tools involved, let’s explore the step-by-step process of measuring 5G radiation:

1 Research the Frequency Bands

Before conducting measurements, it is important to familiarize yourself with the specific frequency bands used by 5G networks in your region. This information will help you choose the appropriate tools and set the measurement parameters accordingly.

2 Determine the Testing Location

Select a suitable location for conducting the measurement. Ideally, choose an area where you spend a significant amount of time, such as your home or workplace. This will provide insights into your exposure levels during daily activities.

3 Set Up the Measuring Equipment

Follow the manufacturer’s instructions to set up your chosen measuring device correctly.

Ensure that it is calibrated and configured to measure the desired frequency range. Position the device at the testing location, considering factors such as height and proximity to potential 5G sources.

4 Conduct the Measurement

Start the measurement process by turning on the device and recording the radiation levels.

Walk around the testing location while taking readings at different points to obtain a comprehensive assessment of 5G radiation exposure. Note any significant variations in readings and identify potential hotspots or areas with higher radiation levels.

Factors That Can Affect Readings

There are several factors that can affect readings when measuring 5G radiation levels. It’s important to be aware of these factors so that your results are accurate and reliable.

Weather Conditions

One factor is weather conditions such as wind or rain. These conditions can cause interference in your equipment and may lead to inaccurate readings.

To minimize this effect on your experiment, try conducting measurements on calm days when there is no rain or strong wind.

Nearby Obstructions

Another factor to consider is the presence of nearby physical obstructions such as trees, buildings, or other large objects.

These obstructions can disrupt signals and may result in inaccurate readings as well. To avoid this issue, try conducting measurements in an open area without any obstructing objects nearby.

It’s essential to maintain proper calibration among all pieces of measuring equipment used during experiments for optimal accuracy when taking measurements.

Calibration should be performed according to manufacturer guidelines prior to each use so that any deviations from normal operation can be identified quickly.

Analyzing Results

Now that you have successfully taken measurements of the 5G radiation levels, it’s time to interpret and analyze the data. This data will help you determine whether the levels are safe or dangerous for human exposure.

The first step in analyzing your data is to organize it in a clear and concise manner.

Additionally, make sure to note any factors that could have affected your readings such as weather conditions or nearby structures. When interpreting the data, refer to the established safety guidelines for exposure to 5G radiation.

What Levels Are Considered Safe or Dangerous?

The ICNIRP recommends a maximum radiation level of 10 watts per square meter (W/m²) (source) for general public exposure to 5G radiation. This level is based on studies that have shown no adverse effects from short-term exposure at this level.

Check out my article: What is a Safe Distance from a 5G Cell Tower?

However, some people argue that the long-term effects of 5G radiation are not yet fully understood and may pose a health risk even at lower levels than what is currently considered safe by regulatory agencies such as ICNIRP.

It’s important to note that other factors such as age, gender, overall health status, and duration of exposure can also impact the potential risks associated with 5G radiation.

Analyzing the results of your measurements is an important step in determining whether 5G radiation levels in your environment are safe or potentially harmful.

It’s important to adhere to established safety guidelines but also consider all factors when assessing potential risks associated with long-term exposures.

Safety Guidelines for Measurement

While measuring 5G radiation, it is essential to prioritize your safety. Follow these guidelines to ensure a safe and reliable measurement process:

• Keep a safe distance from the measuring device to avoid any interference.
• Use appropriate protective gear if necessary, especially when accessing potentially hazardous areas.
• Follow the manufacturer’s guidelines for operating the measuring equipment and ensure you are familiar with the safety precautions outlined in the user manual.
• Avoid unnecessary exposure to radiation during the measurement process. Minimize your proximity to 5G sources and maintain a reasonable distance whenever possible.
• Regularly calibrate and maintain your measuring equipment to ensure accurate and reliable results.
• If you have any concerns about your health or the measurement process, consult with a qualified professional who specializes in EMF measurements or radiation safety.

FAQs

Conclusion

Now that we’ve covered all the essential information on how to measure 5G radiation, let’s summarize what we’ve learned. Firstly, it’s important to understand that 5G radiation is a form of non-ionizing radiation that differs from previous generations of wireless communication technologies.

Secondly, measuring 5G radiation levels requires specialized equipment and careful setup to ensure accurate readings. Analyzing the data collected from these measurements can help determine whether the levels are safe or dangerous.

Being able to measure 5G radiation is crucial in understanding its potential health effects on humans and the environment. As this technology continues to be implemented worldwide, it’s vital that we take precautions and monitor its impact on our surroundings regularly.

Fortunately, by following the steps outlined in this article, you can effectively measure 5G radiation levels in your area and make informed decisions about your safety. Above all else, knowledge is power.

By staying informed about new technologies like 5G and taking an active role in ensuring their safe implementation and use, we can continue to move forward as a society while protecting our health and well-being. So don’t be afraid to ask questions, research new developments in technology, and take action when necessary – after all, the future is in our hands!

References:

• World Health Organization (WHO): https://www.who.int/news-room/questions-and-answers/item/radiation-5g-mobile-networks-and-health
• International Commission on Non-Ionizing Radiation Protection (ICNIRP): https://www.icnirp.org/en/applications/5g/index.html
• Food and Drug Administration (FDA): https://www.fda.gov/radiation-emitting-products/cell-phones/do-cell-phones-pose-health-hazard
• Scientific studies published in peer-reviewed journals from PubMed, Google Scholar, and ScienceDirect.
• Wikipedia: https://en.wikipedia.org/wiki/EMF_measurement

The safe distance from a 5G tower can vary based on factors like the tower’s power output, the frequency bands, and the surrounding environment. Safety guidelines also vary, with some suggesting a safe distance of around 400 meters from the antenna.

In this article, we’ll explore what the safe distances from 5G cell towers are, the factors that affect them, and what we can do to minimize our exposure.

Check out my guide on locating 5G towers if you want to know how close you are to one.

What is a Safe Distance from a 5G Cell Tower? A Global Perspective

Determining a safe distance from 5G towers isn’t uniform across the globe, largely due to the variability in the power output of towers, the frequency bands used, the local environment, and the differing regulatory standards between countries.

These recommendations are based on the limitations set for the strength of electromagnetic fields (EMFs) that can be safely absorbed by the human body and long-term exposure to EMFs, which some research indicates could have detrimental health effects.

This distance is considered adequate to reduce the intensity of the EMF radiation to levels deemed safe by their specific national guidelines.

It’s essential to understand that these guidelines are based on the current understanding of 5G technology and its impact on health. As this is a rapidly evolving field, these guidelines are subject to updates and changes as new research is conducted and more data becomes available.

Check out my perspective on 5G radiation health concerns.

Furthermore, these safe distance guidelines also consider the cumulative exposure from multiple cell towers in urban and densely populated areas where the small cell site technology of 5G means more towers are located closer together.

Factors Influencing Safe Distance from a 5G Cell Tower

Determining a universally applicable safe distance from a 5G cell tower is a complex task due to the various factors at play. Here are some of the key factors that influence what can be considered a safe distance:

1. Power Output of the Tower

The power output or transmission power of a cell tower has a direct influence on how far the electromagnetic waves can travel.

Higher power output translates to a stronger signal and a larger coverage area, which might require a greater distance for safety.

2. Frequency Bands

5G technology operates on a wide spectrum of frequency bands. Higher frequency bands, like those used by 5G, don’t travel as far as lower frequency bands.

Therefore, towers using higher frequency bands are generally placed closer to users, influencing the safe distance.

3. Use of Small Cell Sites:

To overcome the limitation of high-frequency bands, 5G technology employs small cell sites.

These mini cell towers are placed closer together, making the network denser. This strategy allows for better coverage and speed but also means that people are generally closer to these cell sites.

4. Surrounding Environment

The environment around the tower also plays a role. Buildings, trees, and other obstacles can interfere with the signal, affecting its strength and reach.

This means in urban environments, where there are many obstacles, cell towers might need to be closer to the user, impacting the safe distance.

5. Antenna Height and Direction

The height and direction of the cell tower antenna can also impact the safe distance. Antennas positioned higher can transmit signals over a larger area, potentially allowing for a greater safe distance.

Similarly, antennas can be directed to focus signals in a specific direction, impacting where and how far the signals reach.

6. Regulatory Standards

Different countries have different regulatory standards for safe levels of exposure to EMFs, which can influence the recommended safe distance. These standards consider factors like the duration and intensity of exposure.

Check out: House near a Cell Phone Tower – Disadvantages & Side Effects

Protection Tips: Safeguarding Against EMF Exposure from 5G Towers

While the global guidelines regarding safe distances from 5G towers are evolving, there are several proactive measures individuals can adopt to safeguard themselves against potential EMF exposure. Here are some practical tips:

1. Stay Informed: As we are still in the early stages of global 5G deployment, new research, and guidelines are continually emerging. Keep yourself updated with the latest scientific findings and recommendations from reputable health organizations.

2. Distance is Key: As a general rule of thumb, the further away you are from a cell tower, the lower your exposure to EMFs. If possible, consider this when choosing places to live or work.

3. Limit Device Usage: Reducing the time spent on devices connected to 5G networks can also limit your exposure to EMFs. Try to use your devices in moderation and consider turning them off when not in use.

4. Use Wired Connections: Whenever possible, use wired connections instead of wireless ones. While this might not always be practical, it’s an effective way to reduce EMF exposure, especially in a home or work environment.

5. EMF Shielding: There are various EMF shielding products available in the market, such as special paints, fabrics, and films. While their effectiveness can vary, they might be worth considering if you are in close proximity to a cell tower.

6. Maintain a Healthy Lifestyle: While this won’t reduce EMF exposure, maintaining a healthy lifestyle helps to strengthen your overall immune system and body’s resilience. Regular exercise, a balanced diet, adequate sleep, and stress management can all contribute to your overall health.

7. Advocate for Research and Regulation: Participate in community discussions about 5G network deployments and advocate for comprehensive research on their health impacts. Encourage regulatory bodies to establish and update safety standards based on the latest scientific findings.

I have a full-fledged article on 5G radiation protection tips that you may like to read to have a deeper understanding.

Remember, while 5G technology brings immense benefits in terms of connectivity and speed, it’s crucial to stay mindful of potential health impacts.

Staying informed and taking a few protective measures can help ensure that we can enjoy the benefits of this technology while also safeguarding our health.

FAQs

References:

• “Health risks of electromagnetic fields. Part II: Evaluation and assessment of radio frequency radiation” via cdnsciencepub.
• “Liability and Risk from 5G and Cell Towers” by Environmental Health Trust, available at ehtrust.
• “Radiofrequency Electromagnetic Field Exposure and Contribution of Sources in the General Population: An Experimental Study Using Personal Exposimeters” via MDPI.
• “Human Exposure to RF Fields in 5G Downlink” assessed on PubMed.
• “Towards 5G communication systems: Are there health implications?” available on Taylor & Francis Online.
• “Public health and the radio frequency radiation emitted by cellphone technology, smart meters, and WiFi.”, National Center for Biotechnology Information
• “Radiation: 5G mobile networks and health”, World Health Organisation

With 5G becoming a more popular option for cellphone signals, I regularly get people asking me if copper protects from 5G radiation. Well here’s a quick answer:

Copper, in the form of a fine mesh, can help to protect against 5G radiation. 5G is a form of EMF radiation, and copper is an excellent conductor of electrical and magnetic wavelengths. It’s great at attenuating these waves providing the mesh is fine enough.

In this article, I’ll look at some specific information on why copper is so good at protecting against radiation, and how you can use this information at home.

Also read: Does 5G Cause Dizziness?

Why is Copper Good at Protecting from 5G?

Copper is the most common metal used for electrical wiring because it’s an amazing conductor. While some metals, such as gold and silver, are better, they’re far too expensive for mass production.

Copper has greater resistance than the other metals, which is what leads to electrical attenuation. Attenuation is defined as the loss of signal strength when passing through a material.

Usually, you want as little resistance as possible in electrical transfer, but when it comes to protecting against 5G radiation, this is exactly what you want.

To effectively attenuate EMF radiation (of which 5G is part), you need to use mesh with holes smaller than the wavelength you’re trying to block.

This is why your microwave door has mesh on it; the mesh blocks microwaves from escaping when the machine is in use.

So the copper mesh has to have holes as small as the shortest wavelength you’re trying to protect against.

5G uses wavelengths between 30 and 300GHz, which is measured in millimeters. In fact, the wavelengths are typically between 1 and 10mm.

This means that for copper mesh to effectively protect against 5G radiation, it needs to have holes no bigger than 1mm.

You need to be aware, though, that copper doesn’t absorb 5G radiation. Copper mesh will simply block wavelengths from passing through it, meaning the mesh will need to be between you and the radiation source to offer any kind of protection.

In short, providing you can find copper mesh fine enough, it’ll definitely help to protect against 5G radiation.

Just remember that you need mesh with holes no bigger than 1mm if you want to protect against the full spectrum of 5G wavelengths.

How to Use Copper to Protect Yourself at Home

It’s unlikely that you’ll be able to find copper mesh fine enough to protect against 5G radiation.

One way you could try and overcome this is to buy standard copper mesh (Amazon link) and build it up in layers. A few layers should provide some protection against 5G wavelengths.

While you can get copper Faraday protection fabric (Amazon link) this isn’t rated to protect against 5G radiation.

It often works on frequencies up to 5GHz, which is enough to protect against things like Wi-Fi and microwave radiation. 5G uses much higher frequencies.

You can also buy pure copper fabric (Amazon link), but again this only protects up to wavelengths of 18GHz.

We can only hope that as 5G becomes the more common option for phone signals that copper’s protective abilities is applied to new methods designed for this high-frequency radiation.

Make Sure You Own an EMF Meter

Before you start thinking of ways to protect your home from 5G radiation, it’s worth investing in an EMF meter.

This is the definitive way to test whether any solutions you attempt will actually work. You can check out this video for more information on how to use an EMF meter.

Again, it’s worth finding an EMF meter that measures the frequencies you’re trying to protect against, which can be up to 300GHz. Many EMF meters go up to 35-40GHz, so you might need to shop around to find one that does the job.

Are there Other Metals that Block 5G Radiation?

Copper is easily one of the most effective and popular metals used for protecting against 5G radiation. But there are other options, including:

• Nickel
• Zinc
• Aluminum (related article)
• Steel
• Iron
• Nickel silver
• Brass

In short, most metals that have some degree of electric conduction can offer suitable protection against 5G radiation. The biggest issue is that because the technology is still new, few companies have developed protective equipment yet.

This means that, for the time being, there are few protection options specifically for 5G radiation. So to protect against 5G radiation, for now, your best options are to follow tried and tested protection methods.

These include:

1. Distance

One of the main concerns about 5G is the number of signals masts needed to provide effective coverage. Because the wavelengths are so short, they don’t travel very far.

But this works to your advantage because you need significantly less distance between you and a source of 5G radiation. In fact, a solid brick wall is often enough distance between you and the source.

2. Spend time away from sources

Again, a popular method for protecting against 5G radiation is to simply limit your exposure. The less time you spend around sources, the less of an issue it’ll be.

For now, this is fairly easy because the technology is still being rolled out across the country. Providing you don’t live in the center of a major city, you should have very little issue.

Of course, this’ll change over time. But as long as you spend as little time as possible around sources of 5G radiation, you’ll be able to protect yourself.

To make these options more effective, carry your EMF meter around with you so you can test areas where you’ll spend a lot of time.

Some Final Thoughts

Hopefully, I’ve given you some useful information on how copper can help to protect against 5G. But until more devices exist that utilize this technology for the specific wavelengths, it’s not going to be of much benefit around the home.

In the meantime, I recommend you do as much as possible to protect yourself from major sources of 5G radiation.

Fifth-generation networking (5G) is arguably the most prominent buzzword in mobile technology today. However, its implementation has experienced some opposition as it is believed that it poses health risks to humans and the environment.

Does 5G cause dizziness?

According to current scientific research, 5G does not cause dizziness considering it’s non-ionizing and of low frequency. However, many disagree citing inadequate data to guarantee safety. 

Check out my article on 5G Radiation Dangers and Health Concerns

In my opinion, those with Electromagnetic Hypersensitivity (EHS) are likely to experience dizziness from 5G.

This article will delve into the concerns regarding 5G safety and whether we should be worried about 5G technology. But first, let’s talk about what this 5G is and its benefits.

What Is 5G?

Just like 3G and 4G, 5G is a networking technology, but of the fifth generation, which is way more advanced than its previous counterparts.

This revolutionary mobile technology is set to deliver faster internet speeds, incomparable to anything we’ve seen so far. It’s designed to reduce latency, end congestion, and connect even more users to high-quality digital resources through wider bandwidth.

One of the best ways to look at 5G networking and understand its functioning is by examining its benefits. Let’s dive into that!

Benefits of 5G

Here some of the benefits of 5G technology:

1. Superfast Internet Speeds

According to tech companies, 5G is theoretically 100 times faster than 4G. Look at it this way, 4G can download 100 megabytes per second (Mbps), while 5G will do 10 gigabits per second (Gbps). As you can see, that’s practically a hundred times faster.

This faster internet speed will allow for faster downloads and more efficient real-time data sharing.

2. 5G Supports Many Devices

5G connects to not only more users, but also more devices. It uses the millimeter wave spectrum to be able to connect to more devices in a geographical area.

In every square kilometer (0.386 square miles), 5G can support 1 million devices. This is 250 devices for every device 4G supports within an area.

3. Upgraded Infrastructural Capacity

The world is rapidly moving into requiring massive data transfer at higher speeds. While 4G has been offering great services, it’s quickly getting less efficient and more congested.

Smart technology, heavily data-driven industries, and smart cities, for example, will require higher data transfer rates and lower latency to function reliably and in real-time. Self-driving cars will require a highly responsive internet connection to function effectively.

The good news is that 5G promises to offer the necessary infrastructural capacity to allow for these technological advancements.

4. Increased Bandwidth

A more advanced networking technology will offer increased bandwidth to support the Internet of Things (IoT). The gadgets connected to a grand system need this basic supporting mechanism aptly provided for 5G.

Should We Be Worried About 5G Technology?

With all the benefits that are bound to be experienced with the installation of 5G, there’s still the question of the safety of humans and the environment. Should we be worried?

5G has an extremely high frequency that lies between 30GHZ and 300GHZ, compared to 4G, which operates between 2GHZ and 8GHZ.

These higher frequencies do not travel as far as the previous generations for mobile connectivity. For 5G to be successfully implemented, there’ll be a need for many new masts and base stations that connect and broadcast these frequencies over short distances.

The problem? An exponential increase in masts that will be erected just around where you stay. Check out my guide on locating 5G towers near you.

Reputable international organizations and telecommunications regulators in numerous countries seem to agree that 5G technology, as is intended to be deployed, is virtually harmless to humans and the environment.

The World Health Organisation (WHO) states that 5G technology is safe so long as exposure to radiation is below international guidelines. However, WHO also concedes that only a few studies on 5G have been carried out.

The Federal Communications Commission (FCC) takes its advisory opinion from the FDA and WHO, among other organizations, in defense of the use of radiofrequency energy.

FCC asserts that there is insufficient evidence to suggest that exposure to radiofrequency energy can cause a known health problem. They assert that as long as the minimum frequency standards are observed, you shouldn’t be worried.

5G health and safety concerns spring from the electromagnetic radiation that is emitted by the masts and from the connected mobile devices. Understanding this radiation will help allay some of the fears regarding this revolutionary technology.

Radiation is the transmission of energy in the form of electromagnetic waves through the air, space, or a material medium. Radiation is often categorized as either:

Why Are There Concerns Regarding 5G Technology?

Cautionary advice by the WHO and Center for Disease Control (CDC) seems to suggest the need for more scientific research before we can conclusively determine whether mobile telephony is safe or not.

Although CDC and WHO say that radiation within acceptable standards is safe, they decry the absence of adequate solid, scientific proof for this. It’s basically a case of, “we’ll consider it safe because no one has sufficiently proved it’s dangerous.”

WHO’s International Research Agency for Cancer classifies radio-frequency radiations (WiFi signals) as “possibly carcinogenic.” The possibility of an impact on your health by radiations is therefore not completely eliminated.

Information technology is advancing so fast, often outpacing scientific research in subjects like human health. Studies in human health sometimes take many years to be concluded. We have not been exposed to the levels of radiation we are currently experiencing. 5G will definitely lead to more radiation.

The National Toxicology Program conducted a 2-year experiment on rats and mice, and there was evidence that male rats developed heart tumors that were cancerous when exposed to 2G and 3G radio signals. However, the research was never conducted on humans.

Some reputable scientists argue that radio frequencies have a hormonal and reproductive effect on humans. Some experts even suspect that the non-ionizing radiation from 5G devices could damage cells by causing oxidative stress. This can lead to inflammation and may cause diseases like cancer and diabetes.

Proponents of 5G technology have not exhaustively demonstrated that 5G technology wouldn’t harm humans and the environment.

Conclusion

5G electromagnetic technology employed in mobile communication continues to elicit health concerns. Proponents of 5G networks cite the low, non-ionizing frequencies as being incapable of causing health risks in humans and the environment.

The opponents, who urge that we adopt cautious optimism, believe that research is still inexhaustive to fully comprehend 5G networks’ impact. They advocate an approach to conducting further research before we can fully embrace 5G technology.

With too many variables changing in a fast-paced world, it’s increasingly difficult to pinpoint the root causes of health challenges you may face.

Check out my guide on 5G radiation protection.

It is common knowledge that radiation is dangerous for your health. With 5G making its mark on society, there have been questions about the safety of the radiation emitted from the cell towers that are powering 5G networks, but is 5G the same as microwave radiation? You would think so.

There is a lot of truth to believing that 5G radiation and microwave radiation are the same. However, there is validity to the belief that 5G radiation is more dangerous than microwave radiation, but not necessarily true. The radiation emitted from both makes them different.

Also read: 

• 5G Radiation Dangers and Health Concerns (Research Based)
• How To Protect Yourself From 5G Radiation

Let’s uncover the truth behind what makes 5G radiation different from and by comparison to microwave radiation. It is necessary to understand the different types of radiation and their effects on the body. This article will also include other truths, the reasons 5G may be more dangerous, and why it is a good idea to minimize your exposure.

Microwave Radiation vs. 5G Radiation

Microwaves emit electromagnetic radiation. This radiation is similar to the radiation used in 5G devices or towers which emit radiofrequency radiation. Both types of radiation are dangerous with exposure long term as they are both considered to be gamma-radiations.

Though both microwave and 5G radiation are different, there are also many similarities that you need to consider.

Different Types of Radiation

There is an extensive range of radiation types that can have a severe impact on your health.

• Alpha radiation – This is the most dangerous type of radiation, which is quickly absorbed by cells. Though most dangerous on the surface, it is actually less dangerous because it is less likely to penetrate the body and reach the living cells inside.
• Beta and Gamma radiation – These are not as dangerous because they are not likely to be absorbed by cells but rather pass through them. They can easily penetrate the skin and damage internal cells.
• Electromagnetic Frequency radiation (EMF) or RF radiation – This is the type you get from a microwave or cell tower and is gamma-ray or beta radiation. It is waves of electrical or magnetic energy moving through space.
• Microwaves and 5G radiation – These are considered to be forms of non-ionizing radiation. This type of radiation doesn’t have the energy to destroy electrons out of atoms. However, it can alter atoms and other molecules that can damage the cells and other organic matter.

Why Is It Widely Believed That 5G Radiation Is More Dangerous?

As stated above, there are two key reasons that 5G is more dangerous. These reasons are the very base theorists have determined that 5G is dangerous comparatively to microwaves.

5G Emits Ultra-High-Frequencies

5G is known to emit ultra-high-frequencies. The general consensus is that the higher the frequency, the shorter each wavelength will be.

What that means is that when near 5G, our bodies are hit with more waves in the same amount of time as any other type of frequency. Previous to 5G, cell towers emitted 1 to 6 GHz frequencies; with 5G, that number has increased to 300 GHz.

5G Is Equally High-Intensity

5G is also known to be equally high-intensity. Since the waves are significantly shorter length millimeter-wave or MMV in 5G, it does not travel as far as current cellular waves.

The waves from 5G also get obstructed easier, which means that 5G needs to use the lower waves of 3G and 4G and have multiple mini cell towers to keep up with the demand of cell signals.

It has been estimated that to get a reliable signal using 5G, there needs to be a mini-tower every two to eight houses. What that does is significantly increase the amount of RF Radiation exposure.

RF radiation is determined to be dangerous by how close it is to your body rather than the power level. RF radiation tends to dissipate over distances, which is why 3G and 4G provide less exposure than does 5G because their cellular towers tend to be more space out. Whereas 5G cell towers need to be closer together for optimal signal.

Therefore, low-powered exposure that is right next to you is more dangerous than high-powered exposure much further away. Finally, the longer the time of exposure, the more damaging it is. That is why 5G is considered to be the worst of both low-power in close proximity and exposure time.

Also read: Finding 5G Towers Near Me (3 Quick Ways)

Long-Term Effects of EMF or RF Radiation Exposure

There is something called an electromagnetic spectrum that determines the levels of the danger of exposure to certain types of radiation. These radiation levels are placed on this spectrum in order of what is least to most dangerous.

Both the radiofrequency and electromagnetic frequency of microwaves is on this spectrum. When comparing the two, microwaves are a bit more dangerous than is RF radiation. Further on the spectrum, you find infrared radiation, rays, and gamma rays.

Though the exposure is relatively low compared to other types of radiation, there are still potential long-term effects of cell damage that can lead to serious health complications if you aren’t careful.

Low exposure does not mean any exposure. Any type of exposure over long periods of time, such as using a 5G cell phone for hours daily, can lead to some severe health complications.

The long-term effect of RF radiation exposure includes the development of tumors within the body that result in full-on cancer.

The most common types of cancer caused by exposure are brain cancer, glioma cancer, neck, and breast cancer. It is also noted that long-term skin exposure to devices that emit RF radiation can also cause localized tumors and can grow.

The Verdict: Microwave and 5G Radiation Are Different in Intensity

It is thought that 5G is considerably more dangerous than microwaves are when it comes to EMF exposure. The idea is that since microwaves have been around for a long time, they are indeed safe.

The other idea is that the amount of exposure to the frequency waves of 5G will increase exponentially, causing it to be more of a health hazard than anything else.

However, the EMF spectrum measures the level of exposure and the results it has on the body. Through the tests done to develop the EMF spectrum, it has been noted that microwaves still pose more of a risk to your body than does 5G, making 5G and microwave radiation’s intensity levels different, though they are similar types of radiation.

It is worth noting that both 5G and microwave exposure is not safe long-term. Both types of radiation are dangerous and should be limited as much as possible because of the long-term damage it can cause to healthy cells within our bodies.

Though 5G is considered safer than a microwave, that doesn’t mean you should spend extended periods being exposed to the RF waves produced by 5G devices.

Regardless of what type of radiation you are talking about, radiation in any form is still a hazard to healthy body tissue and cells.

Conclusion

There have been many theories about the safety of 5G radiation and how it compares to microwave radiation. As stated above, there is more risk in microwave exposure, but that does not mean you should ignore the potential issues that 5G radiation can cause.

Since 5G is still relatively new, there is still a lot to learn about it, and that includes how dangerous the radiation emitted from 5G can be on the human body. Never assume that any type of radiation is safe to be near for extended periods because that is not true.

To be safe, limit your exposure to any type of radiation. If you run the microwave, step away, or limit how often you use it. Using 5G cellular networks should also be limited in favor of other types of connectivity.

5G connectivity has sparked a lot of conversations in recent times. While many people are rightly worried about the dangers of EMF radiation, there’s been a lot of effort in some circles to make these worries appear unfounded.

Knowing about the dangers of EMF radiations like 5G, however, you are probably thinking of getting an EMF meter to measure 5G radiation. Will it work, though?

EMF meters can measure some frequencies of 5G radiation. However, since 5G technology is rolling out across a wide range of frequencies, it is not easy to find an EMF meter that can measure all the existing 5G frequencies. You may need multiple meters to get accurate measurements.

Check out my guide on 5G radiation measurement.

In this article, we’ll take a closer look at EMF meters and how you can pick the right ones. There’s also a section on whether you should worry about 5G radiations or not.

What Is an EMF Meter?

An EMF (electromagnetic field) detector is a special device used to read electromagnetic fields. It’s made up of highly-sensitive components which have the capacity to pick up fluctuations in the amount of electric or magnetic energy in any given space.

With an increasing number of tech devices and new strides in connectivity, EMF meters have become useful, as more people try to investigate the effects of electric or magnetic energy on humans.

Types of EMF Meters

Also known as electromagnetic radiation meters, EMF meters are divided into different groups based on the type of radiation they typically measure.

• Radioactivity meters generally measure A and B particles, X rays, and gamma rays.
• Low-frequency radiation meters are used to measure electric and magnetic fields in power cables, electronic devices, transformers, etc.
• High-frequency radiation meters are the ones you should be concerned about here. They are used to measure electromagnetic fields from cordless phones, Bluetooth devices, wireless internet, cell phones, and phone network masts. They can also measure electromagnetic fields from microwave ovens, TV and radio antennas, etc.

EMF meters can measure AC or DC electromagnetic fields. Pricier models are able to measure both. EMF meters are also further grouped based on the number of axes they can measure into single and tri-axis meters.

Single-axis meters measure one dimension on the field. This means you have to tilt and turn the meters multiple times to get a complete measurement. Tri-axis meters, on the other hand, can generate full-field measurements quickly because they measure three axes at once. They are, therefore, costlier than single-axis meters.

Why Are EMF Meters Useful?

An EMF meter can be useful in the following ways:

• It can help you to identify sources of radiation so you can either remove or replace them, depending on the situation.
• You can find out radiation hotspots and stay away from them. These hotspots are areas where you are exposed to unsafe levels of high-frequency radiation.
• You can measure the radiation levels in an area after you’ve implemented electromagnetic shielding techniques.

Can You Measure 5G Radiation With an EMF Meter on Your Own?

Check out my guide on reading EMF meters.

Radiation measurement has become a hot niche in recent years, so the EMF meters in the market are designed with simplicity in mind.

In many cases, you only have to turn on the meter in the space you’d like to test for radiation, and then check the readings that will appear on the screen after a few minutes. You can then crosscheck the readings received with acceptable radiation limits.

Is 5G Dangerous? Do You Really Need an EMF Meter for It?

As we mentioned above, there’s been a lot of debate around the safety of 5G networks and other forms of EMF radiation. However, for every dismissive post about the potential dangers, there are dozens more like this one asking the hard questions.

The major talking point used to push the safety of EMF radiations is that they are non-ionizing. However, research has since shown that this fact doesn’t make EMF radiations safe. In 2011, the WHO-backed International Agency for Research on Cancer (IARC) stated that EMFs are possibly carcinogenic to humans.

In another study, researchers discovered that people exposed to high levels of EMF for long periods had an increased risk of certain types of leukemia. This study showed that there’s a link between EMF exposure in humans and negative changes in the nerve functions in charge of mood and sleep.

The International Commission on Non-Ionizing Radiation Protection (ICNIRP) has a guideline on what they think are acceptable levels of EMF exposure, but as this post rightly points out, over 500 studies have since shown that these so-called acceptable levels are not 100% harmless.

Based on the results of these studies, over 240 scientists have signed the International EMF Scientist Appeal, pushing for stronger exposure limits

So, is 5G dangerous? Yes, it is, just like other EMF radiations. Getting an EMF meter to ensure you are not exposed to too much of it and other types of EMF radiation is a good decision.

Also read, Finding 5G Towers Near Me (3 Quick Ways)

EMF Meters That Can Measure 5G Connectivity

There are a few EMF meters that you can consider using if you live in a region that already has 5G technology deployed, and you’re curious about the level of exposure you’re getting exposed to. Here are some:

Safe and Sound Pro 2

See the Amazon listing

This durable, hand-held EMF meter is one you can use to measure 5G frequencies that are 12 GHz and below. It is a model from the Safe Living Technologies brand. You can count on it to pick on 5G frequencies from 200 MHz to 8 GHz.

The device comes with 15-hour battery life, giving you ample use time even when you are out and about. You’ll also get a bar graph showing you the intensity of readings. Are you electrically hypersensitive? The low EMF emissions of the meter make this a good option to consider.

The Acoustimeter AM11

See the Amazon listing

This is one of the best RF meters on the market today. It is not quite as powerful as the Safe and Sound Pro 2, because it only measures 5G frequencies up to 8 GHz. However, it is very accurate and simple to use. Its accuracy is as a result of its ultra-detailed directional sensitivity. It ensures you can easily pinpoint the direction of the 5G waves.

The device is, however, bulky and a bit pricey. It’s probably not an option if you just need an EMF meter out of curiosity or if you intend to carry it around frequently. However, when you do have to carry it around, you don’t have to worry about power as it can last 20 hours on a single charge.

Tips for Buying an EMF Meter

If you’d prefer to get another EMF meter outside of the two we have covered above, here are some tips to keep in mind:

• Choose one that matches the 5G frequency in your area. As you’ve seen above, your meter won’t pick anything if the 5G frequency around you is out of its limits.
• Check for the manufacturer’s reputation. Are they well known in the industry? Buying from trusted brands is the only way to be sure you’re getting accurate readings.
• Choose a device that is simple to use. You should be able to intuitively use the meter or at least be able to use it after watching a few minutes of tutorials.
• Check for added features. What other types of radiations can the EMF meter pick up? Does it come with decent battery life? How are the readings presented on the screen?

Conclusion

EMF meters can measure 5G radiation, but only if you get a model that can pick up the 5G frequencies in your area. Therefore, the first step to measuring 5G radiation is to, first of all, find out the frequencies in your region.

Once you are sure of the numbers, you can then look at the EMF meters in the market that can pick up the frequencies using the tips we’ve covered above.

5G is the latest jump in mobile technology, and 5G towers are currently being installed across the country in anticipation of its nationwide rollout. As a result of health concerns, I’ve had a few people ask how to locate 5G towers near me, so I’ve put together this article to cover your options.

Currently, there are 3 main ways to find 5G towers near you:

1. Ookla 5G interactive map and towers locator
2. Verizon 5G coverage map
3. T-Mobile 5G coverage map

I’ll explain each of these in detail below, including step-by-step walkthroughs of how to check the information. Although the Ookla map should generally provide you with the necessary information, it can be worth checking on several maps to make sure you’re fully covered.

Before we cover these in more depth, let’s first take a look at what 5G is and what are the related health concerns.

Should I be concerned about 5G?

As you may have already guessed, 5G is the latest development in cellular technology. It’s considered to be the mobile equivalent of ultra-fast broadband and has much better download speeds than the current 4G.

To reach these speeds it uses high-frequency radio waves, which are much higher than 4G waves, but as a result travel shorter distances. By extension, this means there needs to be a greater number of cell towers in order to provide the best coverage.

So what are the related health concerns? In short, concerns over 5G are the same as they’ve always been: overexposure to EMF radiation, which can lead to a number of health complications.

However, the issue with 5G is mainly that there will be more towers, which means more chance of exposure to EMF radiation. There has been plenty of research into the effects of EMF radiation exposure, and the issue will only get worse with 5G.

That said, the other major concern is the lack of specific research into 5G technology. As it’s such a new concept, there’s been little research into the long-term health impacts, but companies are still moving ahead with their nationwide rollouts.

Read my article on 5G radiation risks.

How to find 5G towers near you

As mentioned, there are 3 ways to find 5G towers near you. However, none of them are necessarily straightforward, and none of the go-to cellphone tower monitoring sites currently track 5G towers.

Instead, you’ll have to spend a bit of time playing about on these various sites. In order to make this process a bit easier for you, I’ve gone through the steps in detail below, providing screenshots of the websites so you’ll know exactly what to look for.

1. Ookla 5G Interactive Map and Towers Locator

The first step in your 5G tower hunt should be the Ookla rollout map. I’d recommend starting with this one because it’ll tell you whether or not there are 5G towers near you in your area, and if there are, you can use one of the other maps for a more detailed look.

Ookla is a fairly good map that offers information about the whole planet. It’s updated every week, so be sure to check back on it another time if there’s currently no information for your area.

After loading the webpage, you’ll be greeted with a page that looks like this:

As you can see, it displays dots with a numerical value inside. These state the number of towers in a particular area, and zooming in on the map will show you a more detailed distribution.

Before searching the map for 5G towers near you in your area, however, it’s worth paying attention to the key in the top right corner, which looks like this:

The map has 3 filters: commercial availability, limited availability, and pre-release. Commercial refers to towers that are open to the public, meaning your 5G-enabled device can connect to them.

Limited availability is 5G towers that are in place but not registered on commercial networks, although this doesn’t mean they’re not in use. Finally, pre-release refers to towers that are being built or are in the final stages of rollout to the general market.

When searching for 5G towers in your area, it makes sense to have all 3 filters enabled, as you’re interested in the number of towers that exist. After all, pre-release towers will become commercially available at some point, and it won’t be long until they’re live.

As you begin to zoom in on a specific area, you’ll notice the circles move around and separate. This is simply showing you a more detailed distribution of the towers in a more localized area. Here are some screenshots to show you what I mean:

And after further zooming into your area, the map will look like this:

As you can see, the color of the dots corresponds to the key. So, for example, in southern Georgia, there’s 1 tower with limited availability and a grouping of 22 towers with commercial availability slightly further north.

Zoom in some more, and then click on one of the circles. Doing so will open up a text box that displays the network the tower works on, along with its availability. While it’s not necessarily relevant to know the network, it is still useful information.

That’s basically all there is to using this 5G coverage map. However, the major downside of Ookla is that it shows you coverage, but doesn’t necessarily give you all the information you need about 5G cell towers.

For example, it doesn’t differentiate between the low band and the high band. Cell phone towers as we know them are low band, which means they travel greater distances, but possibly the more worrying aspect is the high band.

High band, also known as millimeter waves, are the short-distance towers that’ll be installed in urban areas to improve coverage. These are installed to compensate for the fact that 5G signals have difficulty passing through buildings.

Luckily, using the Ookla map in combination with one of the other methods suggested below should give you all the information you need.

Getting information on 5G in your neighborhood

After using the Ookla map to determine whether there are 5G towers near you in your area, you’ll next need to find out where the towers are located. To do this, you’ll need to switch over to a network-specific map, which is another reason why the Ookla map comes in handy.

The only issue with this, though, is that not all networks have detailed maps of their coverage. For example, AT&T currently has no information, although their coverage can be found on Cellular Maps. However, this information isn’t particularly relevant because it doesn’t tell you about the towers.

For the purposes of this exercise, we’ll focus on the millimeter waves of 5G coverage. The low band towers function just like 4G towers and emit the same kind of radiation. While this isn’t necessarily safe, it’s less of a concern than the high band waves.

Below are methods to use the maps on the Verizon and T-Mobile websites. Verizon is already using high band towers, whereas T-Mobile still uses low band cellphone towers. As a result, we’ll get to see how to locate both.

2. Verizon 5G Coverage Map

After opening the Verizon coverage map, you’ll be given a list of cities in which 5G coverage is installed. If you don’t see your city on the list, it means Verizon doesn’t have any 5G towers near you in your area. Return to the Ookla map to confirm you’re looking at the correct network.

The list looks like this:

Let’s use Atlanta as our example seeing as we looked at Georgia on the first map. Click on the city to be presented with a map that shows areas covered by 5G.

The key in the bottom left corner details what each color means. The red dots indicate a high band 5G tower near a city landmark, and areas in white partly receive 5G coverage.

However, it’s worth noting that the Verizon map only shows commercially available towers, so there might be some discrepancies between the information found here and the information displayed on the Ookla map.

Clicking on an area of the map will give you a more in-depth look at the coverage. Clicking on the Downtown area will show us a road map, along with 5G coverage:

Again, the key is helpful here because it allows us to differentiate between the types of cellular coverage. On this map, pink areas are 4G coverage, which should realistically be everywhere, and the red areas show specifically 5G coverage.

However, it’s important to remember that this map intends to show coverage, and as a result, doesn’t specifically tell you where the tower is located. This means that to find it you’ll actually need to go out hunting in person.

You’ll be looking for a small antenna on street furniture such as telephone poles, streetlights, and traffic signals. This might prove difficult though, as many of the masts are designed to blend in with their surroundings.

Also, the exact location of the mast is only relevant to a certain extent. If you use this map to confirm that there’s 5G coverage over your house, then you have all the information you actually need.

As high band 5G signals don’t travel very far, you can assume that in areas of wide coverage there might be several masts. But again, the important information is whether your house is covered. If it is, it might be worth investing in some 5G protection measures.

3. T-Mobile 5G Coverage Map

Another option to try instead of the Verizon map is the T-Mobile map. This realistically does the same job but with a different network, so it can be worth checking both depending on what the Ookla map tells you.

When you load the website, you’ll be presented with a map not dissimilar to the Ookla one:

However, a major advantage of this map over the others is that you can begin by putting in more detailed information about your location, such as your city, state, or ZIP code. This at least means you don’t need to manually search for your location.

Again, much like the Verizon map, this one only shows commercially available 5G coverage in your area. Monitor it regularly to see if this changes.

We’ll stick with Atlanta again just for a comparison on the same area. So by putting in the city name you’ll be zoomed in to the location.

This map features a key very similar to the one used on the Verizon website: purple shows 4G coverage and pink shows 5G coverage. As you can see, the T-Mobile network is already fairly extensive in the area.

You can zoom in and out as you like, although this map doesn’t offer anywhere near as detailed a view as the Verizon one. In fact, this is as close as you can go to a street view:

Other than telling you that Atlanta is almost entirely covered by 5G networks, this map doesn’t give you loads of relevant information. Again, for more depth, you’ll have to go out and physically look for 5G towers near you.

Monitoring 5G rollout in the future

While some networks already have extensive coverage across the country, all mobile network operates plan to have some level of coverage by the end of the year. In short, this means the network of cell towers will increase.

Of course, cities and urban areas will be targeted more quickly than rural areas, but even they’re expected to have some level of coverage. However, people in rural areas can rest a bit easier, as they’ll generally only receive low band coverage.

Either way, this means it’s worth monitoring these maps in the future to check for any changes. Perhaps the best one for this is the Ookla map, as it tells you how many towers are in the area.

Similarly, it’s worth keeping an eye on this map to check when pre-release towers become available. This basically translates to them being “switched on”, which will obviously increase your exposure to 5G signals.

Ookla is updated every week, but there doesn’t appear to be any specific information about how often the others are updated. However, if you notice any relevant changes to the Ookla map, check the network-specific maps for more information.

How can you use this to reduce your 5G exposure?

On their own, these maps don’t necessarily work as a strategy for reducing your exposure to 5G radiation. However, locating your local 5G cellphone towers is a good first step in your strategy, as it at least lets you know what kinds of radiation to protect against.

As mentioned previously, your main concern is with the short-range, high band antenna that are popping up in cities. The flip side of this means that if you’re living in a rural area then you don’t need to really do any more than you’re already doing.

It’s also worth bearing in mind that the reason service providers need to install so many high band antennas is that the radio waves can only travel very short distances, as they don’t penetrate very far into buildings.

Like all forms of EMF radiation, of which radio waves are only one kind, 5G signals get weaker with distance. This means that unless you’re within about 20 feet of a 5G cellphone tower, then your risks are significantly lower.

However, this is where the potential dangers lie: it’s for all these reasons that they’re needing to install so many 5G cellphone towers. To provide the best coverage, they’ll need to install a fairly extensive network of high band antennas.

Check out my article on ways to protect yourself from 5G radiation.

How close are they to completing the network?

As you can see from the Ookla map, there’s already good coverage in a number of large cities. Similarly, many major network providers plan to have extensive coverage by the end of 2020, although this will depend on a number of factors.

Conversely, as networks increase, so will information on tower locations. Therefore, one of the wisest things to do is to continue checking these websites regularly to see whether there are any more 5G towers installed in your area.

It’s fair to say that within the next 2 years the vast majority of the USA will have 5G network coverage, particularly as companies are already releasing devices with 5G capability.

However, this also means that you should have enough time to develop a good strategy for reducing 5G signal exposure in your home. If you start looking at ways to reduce your exposure before the network in your area is too extensive then you’ll already be ahead of the game.

Some final thoughts

5G rollout has been on the rise in recent months as many companies push to provide the best nationwide coverage. While some are miles ahead of others, this arguably isn’t our biggest concern.

Regardless of the network provider, greater 5G coverage means more 5G towers. The ones to look out for are the high band towers, which are more prevalent in urban areas because of their function.

Realistically though, the only information that matters is whether your house is covered by 5G. If it is, or soon will be, then it can be worth taking some steps to reduce your exposure to this new kind of phone signal.

The fifth generation of cellular telecommunications is almost ready for implementation in 2019. We are progressing toward this new technology because the current set of frequency bandwidths in use are reaching a point of total saturation. By transitioning to a 5G experience, we can have better speeds, more effective communication, and our Internet of Things devices can deliver on their promises.

Although there are several benefits to consider with this technology, there are also some exceptional dangers and health concerns which we must take under advisement. The World Health Organization already classified the radiation from radio frequencies as a potential 2B carcinogen.

We also know that the National Toxicology Program, a $25 million investment into the health and wellbeing of humanity, concluded that the radiation from radio frequencies that current cellular phones use could cause cancer.

With 5G technology on its way, using frequencies that exist above and underneath the current bands, there are some specific issues to consider now before adopting to this new world of opportunity.

What Will Our 5G World Look Like in the Future?

Watch this video on YouTube.

A 5G world promises faster processing speeds by offering more available bandwidth options. High-frequency millimeter waves (MMWs) which sit untapped offer the potential for more communication. The only problem is that these high-frequency waves can only travel a short distance before their usefulness expires.

They also don’t fare well when obstacles are in the way. That means our infrastructure needs will change to accommodate this technology. There would need to be many more cell towers available, some as small as 3mm, with spacing every few feet to be effective.

One of the proposed ways to manage 5G installations is to place a small antenna on the top of every lamp post and power pole in a neighborhood.

That means it would be almost impossible to hide from this technology if you live in the city or the suburbs.

Once 5G is available, you can expect download speeds up to 100 times faster than what current 4G networks support. For comparison, 4G was 10 times faster than 3G speeds.

That means our download speeds can easily reach 10 gigabits per second, which is plenty of bandwidth to stream, collaborate, and explore without any lag. It promises an almost unrestricted call volume and a nearly infinite foundation for data broadcasting.

It will support at least 100 billion devices before another upgrade would be necessary for our global data network. That is why many governments and telecommunications providers are onboard with this project.

It is a way to create more connections, improve rural access, and increase productivity at all levels of society.

The only trouble is that there are a series of health problems and dangers that are possible when the new 5G network receives global deployment.

Dangers and Health Concerns of 5G Radiation

Before I list out the problems associated with 5G radiation, I highly recommend you watch the video by CNBC below. It clearly spells out the levels of health concerns, risks and dangers which all of us should be aware of.

Watch this video on YouTube.

The list of health concerns, risks and dangers associated with 5G radiation are listed in the table below:-

Problem #1: More Frequency Pollution

When we start using 5G products for the first time, then we will be bombarding ourselves with very high and low frequencies using short-range intensities that create a dense layer of pollution. The antennas that work with the higher ranges are smaller, creating lower intensities that works against the signal disruptions that occur from various human-made and natural obstacles.

There are three critical layers to consider with this problem.

• The primary coverage layer ranges from 600 MHz to 2.6 GHz.
• Then the capacity layer ranges from 3.1 GHz to 4.9 GHz, depending on the country or continent of origin.
• Finally, the high throughput layer ranges between 24.25 GHz to 40 GHz with its commercial studies and deployments.

Each grouping creates a different set of wavelengths that could be dangerous to human health with constant exposure. Since the low-intensity design of the 5G network tries to get around the issue of building blockage, there will be fewer places on our planet where you can escape exposure.

Problem #2: The Impact of 5G on the Skin

When electricity and radio frequencies reach a wet environment, then they become more conductive. During experiments with 60 GHz frequencies, researchers found that over 90% of the power transmitted through the wavelengths receive absorption as far down as the dermis layer of the skin. This stimulus can be damaging enough that it causes physical pain in some individuals. Constant exposure to it may also increase the risk of cancer development and various skin diseases.

When the skin is unable to protect the body from this invisible intrusion, we lose many of the benefits it provides. Healthy skin works like a solid brick wall, offering bio-lipids that cooperate to form “mortar” that keeps this organ healthy. Issues with pH balance, hormonal imbalance, and moisture retention are all possible outcomes thanks to 5G exposure.

Because your sweat glands will essentially act as a set of antennas for these new frequencies, the impact due to its constant exposure could create additional wellness risks for people who are usually healthy.

Problem #3: Heart Health Risks and 5G

When the human body receives exposure to frequencies above 53 GHz, then it can impact heart rate variability, which is a prime indicator of stress for the organ. This issue can create adverse conditions in the body which can even lead to arrhythmia. When children receive exposure to these 5G frequencies, then adverse health impacts can start as low as 17 GHz.

Some people can even become sensitive to the presence of electromagnetic radiation in the environment. In a review of 10 epidemiologic studies, 70% of which dealt with neurobehavioral effects, it was determined that there are more symptoms reported when there is proximity to a base station compared to those who do not receive consistent exposure.

The people who live closest to antennas experience more problems with sleep disturbances, ongoing fatigue, headaches, trouble concentrating, visual disruptions, irritability, and problems with their heart. These symptoms also become more common as people age.

Study results from a project where male rats received 9 hours of daily exposure to radio frequency radiation in a simulated 5G environment for two years developed rare tumors in the heart and brain. There was also DNA damage noted in male and female mice and rats in the study.

Problem #4: Vision Problems

Studies that date back as far as 1994 have found that the presence of microwave radiation in the environment can create lens opacity issues in animals. This trait has a direct link to the formation of cataracts on the eye. In animal studies that exposed localized very high radio frequency fields to a single ocular system at 24.5 GHz, cataracts could form in the exposed eye, but not the other one.

Research from Kanazawa Medical University also found that transmitters which produce frequencies of 60 GHz or higher can cause thermal injuries to the eye or optic nerve of varying types and levels. The issue that people face with 5G is that the wavelengths can penetrate below the surface of the eye.

The speed of cell deterioration is one of the most frightening attributes of this potential health danger with 5G technologies. The electromagnetic fields that come from a mobile phone could cause derangement of cells with as little as 8 hours of exposure. Additional health issues to consider here are retinal lesions, corneal degradation, and other changes to a person’s visual capacity.

Problem #5: Reduced Bacterial Resistance

Doctors are already concerned by the steady increase we see in the levels of resistance to antibiotics. The CDC calls this issue one of the most urgent threats to the overall health of the general public.

“Every time a person takes antibiotics, sensitive bacteria are killed, but resistant ones may be left to grow and multiply,” the CDC warns. “Overuse of antibiotics is a major cause of increases in drug-resistant bacteria.”

That means the medical community limits the use of antibiotic subscriptions unless there is a professional determination that one is necessary. The presence of 5G frequencies around the world would create new interactions with bacteria that alter their sensitivity to different biologically-active compounds, which means the existence of this technology could contribute to their overall resistance.

Millimeter waves and antibiotics combine to form a powerful combination to create more resistance to our medications. If we become more vulnerable to bacterial invasions without the help of medicine, then we could experience severe health issues in the future because of this technology.

Problem #6: Danger of Ecosystem Disruption

Do you have trouble sleeping at night? Is there a tablet or phone next to your bed that you use to run shows on Netflix or music as you fall asleep?

If so, then the presence of non-ionizing EMF radiation from the device, its charger, or other electrical components in your bedroom could be to blame. Scientists have observed aviary issues like nest abandonment, reduced survival rates, and plumage deterioration because of the presence of very high or very low frequencies.

Bee populations may experience adverse impacts because of this issue as well. Anyone or anything sensitive to these frequencies can experience a disruption of their natural ecosystem.

In a review of over 900 different studies which evaluated the presence of radio-frequency electromagnetic fields, almost two-thirds of them concluded that there were adverse impacts on insect, aviary, and human populations with its presence.

When we embrace a 5G world, we will be creating even more frequencies that could cause further problems in this area.

Problem #7: Danger of Ozone Disruption

The current plan for worldwide 5G implementation includes the use of satellites, helium balloons, airplanes, and other supportive structures to ensure that hard-to-access areas and rural communities receive the same high-speed data and communication supports that those who live in urban or suburban areas receive.

Rocket proposals that would support this infrastructure for space delivery would likely use a solid synthetic hydrocarbon fuel that is sometimes called “black carbon.” Not only would the fuel particles create a potential issue for our atmosphere, but the presence of this greenhouse gas could also be even more devastating than what we experienced with CFCs in the past.

A reduction in protective ozone could increase the potential for skin cancer development. When you combine the exposure risk of 5G frequencies with this issue, there is a strong possibility that there could be quick and severe impacts on the human autoimmune system.

Problem #8: Crop and Plant Health

Plants have a natural ability to absorb the energy that exists around them. This process encourages photosynthesis, allows for carbon storage, and provides food so that growth becomes possible.

Plants can also absorb electromagnetic radiation when it exists in their presence. Liquid water does an excellent job of this as well. Up until we reach the ultraviolet part of the electromagnetic spectrum, these optical frequencies are all part of the EMF landscape that we encounter.

A 1979 study found that there was a possible exposure threat with non-ionizing EMFs and a risk of childhood leukemia when living near power lines. We also know that higher exposure levels to diagnostic radiation that begins at 5 EHz can become problematic.

Therapeutic radiation at 5,000 EHz kills cells, which is why we use it for cancer treatments.

If we receive continued low-level exposure to anything harmful, then it can become a problem over time. It just requires a more extended period of development before it starts developing an issue.

Take the issue of noise-induced hearing loss as an example of this trait. Even though a sound at 85 decibels can cause physical pain, you can receive up to 8 hours of continuous exposure to the noise before possible damage occurs.

If you increase the noise level of the sound, then the permissible exposure times decrease.

• You can receive 1 hour of exposure at 94 decibels before possible damage occurs.
• You can experience 7.5 minutes of exposure at 103 decibels.
• If your environment offers 115 decibels of exposure, then it takes under 30 seconds to cause damage.

Now let’s correlate what that means to 5G technologies. Not only are we increase the GHz levels we experience each day, which further increases risks, but we also receive multiple areas of exposure through the foods we eat. It can even be in the rain that falls.

That is why there are so many potential dangers and health hazards linked to 5G exposure. Will it impact everyone? Maybe not, but it could become a problem for someone you know.

Problem #9: Cell Growth Depression

When we receive a low-level uniform exposure to an electromagnetic field, then there is the potential for it to promote human cell proliferation. This outcome is possible because there is a decrease in the intracellular reactive oxygen species levels that occurs with a consistent 60 Hz.

Once you start going into the GHz spectrum, the results begin to become very different.

A 2016 study from Armenia shows that electromagnetic radiation levels at low-level intensities which simulate the future 5G environment we’re creating could depress cell growth in bacteria.

Researchers looked at E.coli and other common bacteria with this study, finding that there were changing properties and activities in the bacterium cells as well. Their concern is that a similar outcome would happen with human exposure to this environment.

Problem #10: Other Severe Health Concerns of 5G Radiation

The issue that studies find with MMW and low-level radio frequency radiation are that the results can be unpredictable at the individual level.

Some people might never experience a 5G-related health issue after the deployment of this technology.

Then there are the individuals who experience health problems and other physical dangers that don’t fit into any other category. There is a litany of studies which show low-level radio frequency radiation exposure can cause any or all of the following problems.

• DNA single-strand and double-strand breaks that can contribute to cancer development.
• Increased permeability of the blood-brain barrier.
• A reduction in melatonin production that can lead to chronic insomnia and an increased risk of disease development.
• Disruption of the brain’s glucose metabolism processes.
• An increase in the generation of stress-related proteins in the body.

When you encounter a 5G network, then you are receiving an equivalent dose of radiation that you would get from an airport scanner. The reality of our current scientific understanding is that the long-term impacts of this technology are not well-studied.

What we do know is that higher radiation levels with higher frequencies are not a combination that we want to mess around with on a planetary scale.

The Counterargument to 5G Dangers and Health Risks

 Although proponents of 5G technologies downplay the potential for danger and health risks that are possible, even the National Cancer Institute notes that the epidemiologic research shows a potential association between the use of cellular devices and a higher risk of cancer.

Here is a direct quote from their fact sheet.

“Most published analyses from an Interphone case-control study have shown no statistically significant increases in brain or other central nervous system cancers related to higher amounts of cell phone use. One analysis showed a statistically significant, although modest, increase in the risk of glioma among the small proportion of study participants who spent the most total time on cell phone calls.”

Think about what that admission says for a moment. The people who have the highest exposure rates to 4G cellular technologies experience a statistically significant increase in their risk of developing glioma.

With 5G technologies, we’re adding more exposure levels to virtually everyone on our planet. How many people will find themselves in the next high-risk group?

Most research studies which are critical of the idea of radiation coming from cellular devices or antennas use self-reporting surveys, research questions, or personal interviews to determine the possible health consequences of their use. Direct observation studies in this category are rare, but when they do occur, the heaviest users almost always have a significant increase in their risk of developing a glioma, meningioma, or acoustic neuroma.

Dig deeper into the studies that say 5G technologies present a minimal risk to the general population. Avoid reading the user-friendly summaries which are laden with opinions, and then focus on the facts presented to the heaviest users.

When we all start using 5G, we might all find ourselves falling into the current definition of a heavy cellular user.

Testing of 5G Networks is Already Happening

Read my guide on locating 5G towers in your area.

Defense agencies have already been using 5G frequencies to create non-lethal methods of crowd control. Active Denial Systems are guns that emit these wavelengths purposely, which can cause your body to feel like it is on fire if you’re close enough to one. Now we are having telecommunication companies willingly install nodes and antennas around the world that operate in the same range.

AT&T is currently focused on deveoping its 5G networks in a total of 20 U.S. cities, including Los Angeles, Boston, and Chicago. Their “5G Evolution” product is available in Austin, TX, for users who have a Samsung S8 or S8 Plus.

Charter Communications received approval from the U.S. government for an experimental license at 28 GHz to use fixed transmitters in the Los Angeles area that have a 1-mile or smaller effective usability radius.

Qualcomm already reports that the 5G antennas that are part of their network are averaging 27 decibels more noise than older transmission technologies. Additional organizations like T-Mobile, Sprint, and Oracle are working on testing platforms to help make this technology available throughout the world.

That means now is the time we must act if we wish to start protecting ourselves from the potential radiation and health dangers that 5G technologies provide. The guidelines for non-ionizing radiation protection have not changed in more than 20 years, which means radio frequency microwave radiation or millimeter wavelengths are not classified as harmful unless an individual experiences a heating effect.

There has even been a movement to reclassify the adverse impacts of high-frequency exposure to the skin as being a limb, like an arm or a leg, because it would receive less scientific attention during the 5G testing process.

Since the eyes and the dermis receive the most damage with this technology, this issue could allow for even higher exposure levels and a greater public health risk.

Now is the time to contact your elected officials to tell them about your concerns regarding 5G exposure. Even though this technology could provide a brand-new way to communicate and conduct business, the risks to our health might be too high of a price to pay.

Will We Ever Get What is Promised in a 5G World?

 The early speed test results from 5G implementation are not showing impressive results. As of January 2019, AT&T currently has 12 cities out of their targeted 20 equipped with this technology. Unless a user has a supporting handset, the only way to access this network is to use a hotspot.

The Netgear Nighthawk hotspot is the first consumer-ready mobile 5G device that is available for sale.

Most people are still using their previous devices, which means their access to the faster 5G speeds is limited.

Speed tests run on the Nighthawk find that there is minimal value so far in the investment in 5G technologies.

A user test on the 5G network found that download speeds were 194.88 Mbps, with an upload speed of 17.08 Mbps.

The hotspot achieved speeds of 187.44 Mbps and 8.14 Mbps respectively when using the same hotspot on a 4G LTE network.

Will these speeds improve over time? Probably. Is it worth all of the bluster about how great 5G technologies are when there are so many potential risks involved with network installation?

Maybe not.

If users have an underwhelming experience with their first exposure to 5G technologies, then adopting the new network might not go as quickly as anticipated. That could at least delay the need to protect oneself from possibly dangerous health issues.

How You Can Protect Yourself from 5G Radiation

 If you are concerned about how your health will respond to the radiation threat presented by 5G technologies, then there are some steps that you can take to understand what your risks currently are in your home.

Go ahead and read my detailed guide on 5G Radiation Protection.

There are three different types of electromagnetic fields to consider, with all of them linked to significant biological effects in scientific studies.

• Magnetic fields can trigger childhood leukemia and other cancers, with sources including electrical wiring, power lines, and appliances. Stray electricity and wiring errors can create pockets of exceptionally high exposure rates in some homes.
• Electric fields increase the sensitivity levels of individuals to an electromagnetic source. Any exposure can create a measurable voltage level measured at skin level.
• Radio frequency fields, including microwaves, can trigger tumor growth in some individuals in addition to the health problems described in this content. You receive exposure to them from Wi-Fi, wireless computers, cordless or cellular phones, cell towers and antennas, and even microwave ovens.

Before you can take action to protect yourself, it is necessary to understand what your total exposure level is every day. Catalog each source of electromagnetic fields in your home and at your job, and then use an EMF meter to identify where hotspots may be.

Then you can mitigate your exposure levels by eliminating problems, moving away from a radiation source, or shielding your body in some way.

If you want to take a proactive approach to this issue, then here are some ways that you can start limiting your exposure today.

1. Talk on your cellular phone using the speakerphone mode instead of holding the device to your ear.
2. Turn off your phone if you keep it next to your body all day.
3. Use your devices when they have the highest number of bars available to reduce radiation production.
4. Avoid using your device in an enclosed area, such as a vehicle, airplane, or elevator.
5. Text instead of call whenever possible.
6. Use wired landlines in your home instead of cordless or cellular phones for your communication needs.
7. Keep your wireless router away from your high-traffic rooms. Keep your bedroom free of any tablets, computers, smartphones, or smartwatches to limit exposure. You may want to unplug any electric devices close to your bed as well.
8. Use an Ethernet cord to connect to the Internet whenever possible.
9. Disable Bluetooth features whenever they are not in use to reduce EMF exposure.
10. Avoid smart meters that control power consumption as they might be a significant source of electromagnetic radiation.

We often take technology for granted, assuming that the companies which sell us these devices entirely research their potential dangers. The reality of our 5G marketplace is very different. It is up to each of us to ensure that we take the necessary steps to protect our health.