You've ALWAYS Had Those SIXTH SENSES but NEVER Noticed!

Who wouldn't want to be able to fly or even have spider sense? Who wants to be Batman without the technology and financial resources and simply be a regular person? However, the truth is that none of us—not even you or me—are as commonplace as you would believe. You will learn that we are all superhumans in this video. Furthermore, we never realized how many uses there are for our senses.

Our skin is able to self-heal and scent. We have been taught from an early age that people can smell through their noses. However, most of us are unaware that the liver, stomach, heart, and yes, even the skin contain the same olfactory receptors that enable our noses to detect scents. In a study, researchers at Germany's Ruhr University Bochum examined the response of keratinocytes—the primary skin cell type—to several smells. They replicated this receptor and subjected it to a range of scents of sandalwood, an age-old East Asian fragrance and popular aromatherapy ingredient. Here, they discovered that certain smells caused the keratinocytes to divide and move, as though they were self-healing, as opposed to communicating with the brain as is typically the case with the nose. The Sandalore smell in particular demonstrated the greatest capacity for healing. According to research, Sandalore exposure dramatically enhanced cell migration and proliferation by 30%. They also found that the olfactory receptors in the skin are not as sensitive as those in the nose. One would need to have a thousand times higher concentration of these scents than typical in order for the healing process to take place. Unfortunately, that would put our noses in too much danger.

Additionally, scientists are yet unable to circumvent our skin's natural healing and scenting mechanisms. Fourth, the sound of water can be used to determine its temperature. Since there are other, more evident ways to determine whether water is hot, you most likely never observed this. similar to touching it or witnessing steam when you pour hot water. However, by simply listening to the water, you can actually determine its temperature even while you are facing away from it. In an experiment, British Science broadcaster Steve Mould demonstrated that humans are able to distinguish between the sounds that hot and cold water make. According to Mould, heat vibrates molecules, altering their viscosity and producing a high-pitched sound when poured. Conversely, the low-energy molecules of the cold water tend to cling to one another, producing a low-pitched sound. So let's give it a go. Do you hear a difference? Could you tell the sound was different the second time, even though it was obviously hot water since you could see the steam? It all comes down to the viscosity, or thickness, differential in the water. And despite how subtle they may be, after hearing these noises so frequently, our amazing brains have learned to differentiate between them. Thirdly, people have a higher sense of hearing than fish do underwater.

We can only hear frequencies of up to 20 kilohertz on a daily basis. Truly pitiful in comparison to other mammals. Dogs can detect sounds up to 40 kHz, but bats can detect sounds up to 110 kHz. Don't worry, though—underwater, we're not quite as pitiful. Researchers from the U.S. Navy discovered that when divers submerge, their hearing improves. Why? No, it's not because they are Poseidon's demigod offspring. Nevertheless, because they begin to hear via their bones. Humans hear most of the time through air conduction. Sound waves flow through the air, into our ear canals, and through our eardrums during this process, which results in vibration. There are three tiny, linked bones very next to the eardrum. Among these is the stapes, which vibrates and pushes the fluid-filled cochlea back and forth. The pressure waves are subsequently converted into nerve impulses via its hair-like structures, which are transmitted to the brain and processed as sounds. However, sound waves under water use a shortcut known as bone conduction. We can hear up to 200 kilohertz, or ten times more, than we would on land, since the study claims that since there is no air to disturb, sound bypasses most of the process and directly reaches the mastoid, or the bone behind our ear.

Next, your hands become visible in the dark. Go somewhere incredibly dark and just wave your hands in front of you if you don't believe me. Tell me what you see, please. Perhaps a shadow, perhaps? And that's not due to any kind of ultravision, if you can It is an incredible capacity of our neural system, though. Researchers from the Universities of Rochester and Vanderbilt have demonstrated that people can see their hands' shadows even when their eyes are closed or it is too dark to see anything else. The ability of our nervous system to form connections is said to be the cause of this. You won't recall this from your early years, but a watchful parent would see that their child went through a stage where they would constantly move their hands in front of their face, curious about the origins of this incredible structure. They wouldn't quit until they become accustomed to the hand's motion and understood that it was a real part of their body. Over time, the child's visual imaging of the multiple hand processes will be strengthened when he discovers that he can perform a variety of tasks with this hand. And for the majority of people, the hand's movement and image become so strongly connected that they are able to see the hand's visual representation even when their eyes are closed. However, keep in mind that you are the only one who can cause this event. It won't really work for someone else to wave their hands in your face while you're in a dark closet or have your eyes closed. And congrats—you have ultravision—if you were able to see that if you closed your eyes and saw someone wave their hands in front of you!

Lastly, even though you are blind, you can still see. This is Number 1. You heard correctly—a study demonstrates that a blind person's eyes are nonetheless capable of seeing. A blind man was given a challenging maze of boxes and chairs to negotiate, and according to a study published in the journal "Current Biology," he was able to do it without running into any of the obstacles—a skill known as blindsight. According to scientists, the brain is frequently the primary cause of blindness in humans rather than the eyes. They clarify that information typically travels from the retina to the visual cortex, which subsequently transmits the signal to the brain. The man's retina was functioning flawlessly in this instance. However, the visual cortex—which was meant to analyze the prosses—did not.

Due to the obstruction of the primary brain channel, information would have had to travel via detours to reach its intended location, ultimately leading to blindness. Researchers believe that empathy, rather than visual mimicry, is what enables people to replicate the emotions of others. This is interesting because another study indicates that blind people can still perceive emotions. Emotional contagion is a phenomena that causes us to unintentionally mimic the feelings and actions we observe in other individuals. A study that appeared in the "Proceedings of the National Academy of Sciences" suggests that even in the absence of vision, this phenomena may still occur. In the trial, pictures of faces displaying a range of emotions, including happiness, anger, and sadness, were displayed to blind participants. These individuals, like the one who was blind, had healthy eyes but impaired visual cortex. Amazingly, the subjects demonstrated blind empathy by reacting appropriately and with identical body language to the emotions depicted in the pictures. This experiment also shown that a person can maintain a kind of sixth sense of sight, which enables them to perceive colors, forms, and facial expressions without being aware of them.

We are endowed with more senses than we can count on our bodies, which helps us adjust to various circumstances. And occasionally, assisting us in adjusting when one of our five senses is no longer able to fulfill its function. These are only five of the numerous mysteries surrounding our bodies, of course. Additionally, via techniques like meditation and cultivation, a great number of people throughout history have been able to discover talents we never even knew we had. Some people, for instance, are able to endure extremely low temperatures or go months without eating. All I'm trying to convey is that the proverb "Your body is a temple" is accurate—it's a very enigmatic temple. And we simply don't have the keys to reveal all of its mysteries just yet.