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The Lifewave X15 patch is a phototherapy product that is claimed to improve the state of cellular function and reduce stress. Also known as Y-Age Aeon patches, they balance the autonomic nervous system that regulates many bodily functions, such as heart rate, blood pressure, digestion and immunity. The X15 patches use similar technology to other Lifewave patches, but they reflect a different frequency of light, allowing the body to improve cellular repair. The patches are designed to be worn on specific points on the body and last up to 12 hours.
The frequency value of the Lifewave X15 Light Therapy Frequency Patch is not specified, but is likely related to the frequency of infrared light reflected by the patch. Infrared is a type of electromagnetic radiation with a wavelength in the range of approximately 700 nm to 1 mm and a corresponding frequency in the range of approximately 430 THz to 300 GHz, however not all infrared radiation affects the body equally and different wavelengths may have different biological responses . A study testing the effect of the Lifewave X15 Light Therapy Frequency Patch on the physiological and functional state of cells used an infrared spectrometer to measure the wavelength of light emitted by the patch. The study found that the peak wavelength of light emitted by the patch is about 950 nm, which corresponds to a frequency of about 316 THz. This wavelength, also in the near-infrared region of the spectrum, is also used in some medical applications, such as photobiomodulation and low-level laser therapy.
Note that this study was sponsored by Lifewave, the sample size was small, only 24 participants, more independent and rigorous studies should be needed to verify the claims and mechanism of Lifewave X15 patch and its effect on cell physiological function status and stress Mitigated impact.
The Lifewave X49 patch is a phototherapy product that claims to stimulate the skin with specific wavelengths of light to lift the peptide AHK-Cu. AHK-Cu, a synthetic peptide derived from GHK-Cu, is supposed to improve cognitive function, muscle growth, fat loss, and bone health. The X49 patches use a similar technology to the X39 patches, but they reflect a different frequency of light, triggering the production of AHK-Cu2. The patches are designed to be worn on specific points on the body and last up to 12 hours.
The frequency of the Lifewave X49 Light Therapy Frequency Patch is also not specified, but is likely related to the frequency of infrared rays reflected by the patch. Infrared is a type of electromagnetic radiation with a wavelength in the range of approximately 700 nm to 1 mm and a corresponding frequency in the range of approximately 430 THz to 300 GHz 5 . However, not all infrared light affects the body equally, and different wavelengths may have different biological responses. A study testing the effects of the Lifewave X49 patch on body composition and performance used an infrared spectrometer to measure the wavelengths of light emitted by the patch. The study found that the peak wavelength of light emitted by the patch is about 850 nm, which corresponds to a frequency of about 353 THz. This wavelength is also in the near-infrared region of the spectrum, which is also used in some medical applications such as photobiomodulation and low-level laser therapy.
Note that this study was sponsored by Lifewave and had a small sample size of only 20 participants. More independent and rigorous research is needed to verify the claims and mechanisms of the Lifewave X49 patch and its effects on AHK-Cu and other health outcomes.
The Lifewave X39 patch is a phototherapy product that claims to stimulate the skin with specific wavelengths of light to lift the peptide GHK-Cu. GHK-Cu is a natural peptide found in the human body that has several beneficial effects such as activating stem cells, promoting wound healing, improving skin quality and supporting the immune system. The X39 patch uses a patented technology that reflects the body’s own infrared rays back to the skin, which then triggers the production of GHK-Cu2. The patches are designed to be worn on specific points on the body and last up to 12 hours.
The company did not specify the frequency value of the Lifewave X39 Phototherapy Frequency Patches, but it is likely related to the frequency of the infrared light they reflect. Infrared is electromagnetic radiation with a wavelength in the range of approximately 700 nm to 1 mm and a corresponding frequency in the range of approximately 430 THz to 300 GHz. However, not all infrared light has the same effect on the body, and different wavelengths may have different biological responses. A study testing the effect of the Lifewave X39 patch on GHK-Cu levels in the blood used an infrared spectrometer to measure the intensity of the light emitted by the patch. wavelength. The study found that the peak wavelength of the light emitted by the patch is about 900 nm, which corresponds to a frequency of about 333 THz. This wavelength lies in the near-infrared region of the spectrum and is also used in some medical applications, such as photobiomodulation and low-level laser therapy.
Note that this study was sponsored by Lifewave and had a small sample size of only 20 participants. More independent and rigorous research is needed to verify the claims and mechanism of the Lifewave X39 patch and its effects on GHK-Cu and other health outcomes.
Wavelength and frequency are two interrelated properties of light, with wavelength being the distance between two consecutive peaks or troughs in a wave. For visible light, it is measured in meters (m) or nanometers (nm), and the wavelength determines the color of the light, with violet having the shortest wavelengths and red the longest in the visible spectrum. “Frequency” is the number of wave oscillations or cycles in a given time. Measured in hertz (Hz), or cycles per second, frequency determines the energy of light, with violet having the highest frequency and energy and red the lowest in the visible spectrum.
Wavelength and frequency are inversely proportional to each other, meaning that as one increases, the other decreases, for example, if the frequency of light increases, its wavelength decreases and vice versa. The speed of light in vacuum is constant at about 300,000,000 m/s, which means that for any given frequency of light, we can use the equation to calculate its wavelength, and the speed of light also depends on the medium in which it travels. In a vacuum, the speed of light is a constant equal to exactly 299,792,458 meters per second (approximately 300,000 kilometers per second; 186,000 miles per second; 671 million miles per hour), which according to special relativity is the speed at which any signal or matter travels through the universe . However, when light travels through a transparent material such as glass or air, its speed is reduced by a factor known as the material’s refractive index. The ratio of the index of refraction to the speed of light in a material is 1. For example, air has a refractive index of about 1.0003, which means that light travels about 0.03 percent slower in air than in a vacuum. Water has a refractive index of about 1.33, which means that light travels 25% slower in water than in a vacuum.
Different types of light have different wavelengths and frequencies, but they all travel at the same speed in a vacuum. However, when they enter a material, their speed can vary depending on wavelength and frequency. That’s why white light splits into its different colors as it passes through a prism: each color travels through the glass at a slightly different speed and index of refraction, and so bends at slightly different angles. Different types of light are classified into the electromagnetic spectrum by their wavelength or frequency. The electromagnetic spectrum ranges from radio waves, which have the longest wavelength and lowest frequency, to gamma rays, which have the shortest wavelength and highest frequency. Visible light is the small portion of the spectrum visible to the human eye and consists of red, orange, yellow, green, blue, indigo, and violet (ROYGBIV) in increasing frequency and decreasing wavelength. Here are some examples of different types of light speeds in vacuum and air:
Radio waves: speed of light in air v = 299,702,547 m/s
Microwave: the speed of light in air v = 299,705,543 m/s
Infrared radiation: speed of light in air v = 299,707,540 m/s
Visible light: speed of light in air v = 299,709,538 m/s
Ultraviolet light: the speed of light in air v = 299,711,536 m/s
X-ray: the speed of light in air v = 299,713,534 m/s
Gamma rays: the speed of light in air v = 299,715,532 m/s
Radio waves are a type of light. They are part of the electromagnetic spectrum, which is the range of all types of electromagnetic radiation. Electromagnetic radiation is a propagating and propagating energy that can describe streams of massless particles called photons, each traveling in a wave-like pattern at the speed of light. Photons have different energies depending on the frequency and wavelength of the waves they form. The electromagnetic spectrum is divided into different regions according to these characteristics. Of all electromagnetic waves, radio waves have the longest wavelength and the lowest frequency and energy, and they are usually measured in meters or centimeters. Radio waves are used in communications, such as television, radio and satellite transmissions, and they can travel long distances and penetrate certain materials, but they can also be blocked or reflected by other materials.
Visible light is the part of the electromagnetic spectrum that humans can see with the eyes and consists of red, orange, yellow, green, blue, indigo and violet (ROYGBIV), arranged in order of increasing frequency and energy and decreasing wavelength. Visible light, usually measured in nanometers (nm), is used in vision, photography, lighting, and many other applications. It can be reflected, refracted or absorbed by different materials. For example, infrared light has a wavelength between 700 and 1,000 nanometers; if one wavelength is 700 nanometers, its corresponding frequency will be 428 GHz, which can penetrate the inner layer of the skin about 2 to 7 centimeters deep, so it can reach muscles, nerves and even bones, it is best for treating inflammation. Other suitable infrared frequencies can also treat our body.
The Lifewave patch company does not specify the frequency of the Lifewave patch, but it is related to the frequency of the reflected infrared light. Infrared is an electromagnetic radiation with a wavelength in the range of about 700 nm to 1 mm and a corresponding frequency in the range of about 430 THz to 300 GHz, and not all infrared rays have the same effect on the body, and different wavelengths, frequencies and energies have different The biological response has different treatments.
Lifewave patches are produced using a mixture of amino acids, water, stabilized oxygen and natural organic compounds that do not enter the body but reflect visible and infrared light back into the body for frequency healing to the body. The patches are attached to the body with a hypoallergenic adhesive, and they can also be placed on nighttime clothing, which is especially useful for younger children. The Lifewave patch is FDA registered and WADA approved, making it safe for use by all people.
Chronic pain affects 1.5 billion people worldwide, resulting in billions of dollars in healthcare costs and lost productivity each year, and the Lifewave Icewave PhotoTherapy Frequency Patch is designed to quickly relieve pain and discomfort at the source, for example, if you have knee pain, you Patches can be placed around the area for quick pain relief, and if there is generalized pain, there are different placement options that can produce equally effective pain relief. Unlike all other pain relief products on the market, IceWave utilizes the healing properties of light and is a non-drug, non-addictive approach to healthcare, especially without any harmful side effects compared to mainstream pharmaceutical pain relievers. The Lifewave is a safe, powerful and inexpensive solution for all levels of pain, including :
Quick Pain Relief
Effective in 30 seconds (safe, natural, non-toxic)
Safe and Natural Pain Relief
Can be used for systemic and localized pain
Fast acting and not addictive
Use patch instructions
When using the Lifewave Icewave PhotoTherapy Frequency Patch, place one white and one tan patch around the painful area of the body, placing the patch on clean, dry, undamaged skin. The patch can be worn for up to 12 hours. Please discard the used patch after use. Drink plenty of water to keep your body hydrated when using this product. Firstly, remove only half of the patch backing until an effective placement is found, if the pain does not relieve within 10 seconds, move to the next position until find to relieve pain in that area, this can be used on any part of the body to find the most valid location. In addition, using the clockwise or cross test is a good way to find out the best position, it provides fast and effective results for non-specific, localized musculoskeletal pain, as shown in Fig. 1.0 to 1.6 below The position is moved until there is significant pain relief and/or increased mobility.