It does not matter whether your phone is charging or not when you are using it.
The answer to this question is yes and no.
First, let’s take a look at what happens when you use your phone while it’s charging: your phone has to transmit data in order for you to receive it. This means that when it’s charging and connected to Wi-Fi or a cellular network, it’s still emitting radiation. However, the amount of radiation emitted by your device varies depending on whether or not the screen is turned on (and what features are being used). The same goes for downloading apps—the more data you download over time, the more power your device consumes and thus emits radiation.
Radiation from your phone goes down significantly as the battery level fall below 20 percent and continues to go down as the battery level goes down.
The amount of radiation you are exposed to from your phone decreases significantly as the battery level falls below 20 percent. This is because, as the battery level goes down and becomes less efficient, it requires less current to charge.
Radiation exposure is also lower when the phone is not in use, as opposed to being actively charged. The reason for this is simple: if you leave your screen on while charging it will be using a lot of power (and thus emitting more radiation) than if you were merely charging without using the device at all.
If your phone stays in the same position while charging, it may cause skin irritation or burns in some cases.
If your phone stays in the same position while charging, it may cause skin irritation or burns in some cases. The battery may expand or swell and become too hot to touch. In extreme cases, the battery may explode, which could result in serious injury. Additionally, you could be at risk of electric shock or fire due to overheating from prolonged charging of your device if it’s not placed correctly on its base charger or stand (if applicable) while charging.
You may be at risk of electric shock only if you use a low-quality charger.
You may be at risk of electric shock only if you use a low-quality charger. In this case, the charger won’t have been certified by Underwriters Laboratories (UL; an independent testing organization) and will not have the proper safety certifications. The charger should also work with your phone model and be plugged into a working outlet. Additionally, it’s important that the battery has no damage such as cracks or bulges in order to prevent overheating from occurring when charging.
The battery may explode only if you expose it to extremely high temperatures while charging.
What is the risk of explosion?
Most people worry about this, but it’s very unlikely. The battery in your phone doesn’t explode if you use it while charging—even if you leave it in direct sunlight while charging or leave it in a closed car on a hot day and then turn on the air conditioning. The only situation where there is any possibility that your phone might explode during charging involves exposing the battery to extremely high temperatures (such as when using an unofficial charger). So if you’re worried about exploding batteries, don’t expose them to extreme heat!
There is no significant risk of radiation or other damage while using your phone while it’s charging, but there are some minor risks.
No, there is no significant risk of radiation, electric shock or other damage while using your phone while it’s charging.
There are some minor risks, however:
Skin irritation or burns from the heat generated by your device. This happens when you keep a smartphone on a pillow or pillowcase—or anywhere else on your skin—when it’s plugged in to charge. You can avoid this by simply not placing your phone in direct contact with any part of the body when charging it up overnight.
A battery explosion if you expose it to extremely high temperatures while charging (which is unlikely). The best way to avoid an explosion is by keeping your batteries cool at all times and not trying any DIY repairs on them unless you really know what you’re doing!
In this article, we look at whether there is a link between cell phone radiation and cancer.
Cell phones emit radiofrequency radiation, a form of electromagnetic radiation that can be absorbed by tissues close to the phone.
Cell phones emit radiofrequency (RF) energy, a form of non-ionizing electromagnetic radiation. Radio waves are used to transmit voice and data. Cell phones also emit low levels of ELF magnetic fields (low-frequency magnetic fields), which are very similar in strength to those produced by power lines and electric motors.
Whether or not cell phone use increases the risk for cancer is still being investigated. Most studies done on this topic have focused on brain tumors because they are more common than other types of cancers associated with cell phone use, such as leukemia.
Cell phones emit radiofrequency (RF) energy.
You’ve probably heard of the term “radiation” before. It’s a scary word that can invoke thoughts of cancer and radioactive waste, but not all radiation is harmful. Radiofrequency (RF) energy—the type emitted by cell phones—is non-ionizing radiation (or electromagnetic radiation), like microwave ovens, visible light, and FM/AM radio waves.
Because it has different properties than ionizing radiation, such as x-rays or gamma rays, it’s important to understand how they differ so you can make more informed decisions about your health and safety while using cell phones.
Does that radiation increase cancer risk?
Radiofrequency radiation is non-ionizing, meaning it does not affect the structure of atoms. It can cause heating through the absorption of energy by matter.
Radiofrequency energy can get into your body in two ways:
by reflection off your skin (the same way you can feel the heat from a fire or sun) or
inside your head via electromagnetic waves that travel through air, walls, and obstructions like hair or clothing.
What does the research say?
There are different types of studies that can be used to look for a link between something and cancer. For example, cohort studies track large groups of people over time and note whether certain factors, such as mobile phone use, are linked to certain health outcomes. In contrast, case-control studies take two groups: one group with (case) and one without (control) the condition in question. The researchers then try to work out the difference between them by looking at risk factors like cell phone use.
One way is by considering how much evidence there already is for a particular risk factor being associated with cancer: if there’s already good evidence linking a particular factor with cancer risk (for example, smoking cigarettes), then it makes sense to do an observational study because that’s all we can do in this situation anyway! But if there isn’t any strong evidence linking a potential risk factor and cancer yet…
The main concern surrounding radiation and health is its effect on DNA.
The main concern surrounding radiation and health is its effect on DNA. This is the genetic material that makes up genes, which are the instruction manual for building proteins. Proteins control all of the functions in cells, including growth and repair (when they’re not controlling mood). If DNA is damaged during cell division, the protein instructions may be wrong—and this can lead to diseases like cancer.
Some types of radiation can damage DNA directly: ultraviolet light from sun exposure does it all the time; ionizing radiation, such as x-rays or gamma rays, does it even faster; and radioactive substances like radium or uranium cause genetic changes over time by emitting subatomic particles called alpha particles. But some other types of radiation do not directly damage DNA—in fact, they don’t affect living organisms at all!
Does radiofrequency energy affect the body in any other way?
Changes in brain activity.
Changes in heart rate.
Sleep disturbance, memory loss, and headaches are also possible changes from cell phone radiation exposure.
Some studies have found that the electromagnetic radiation from cell phones can cause low sperm count or infertility in men, as well as blood clots and tumors in women who carry their cell phones on their belts or near their breasts.
How much radiofrequency energy do they emit? And at what distance?
The amount of energy a phone emits depends on the type of device and distance from it. The closer you are to a phone, the more radiation you’ll get.
For example, if you’re holding your cell phone against your ear with no case or other barriers between you and it—and assuming that the device has an average emission level—the further away from your body, the less radiation will reach your head.
Do cell phones cause brain tumors or other cancers?
No. The National Cancer Institute (NCI) states that radiofrequency energy (radio waves), such as that produced by cell phones, does not cause cancer. However, if you’re concerned about the possibility of cancer from your phone use, you may consider using a headset or speakerphone option and keeping calls short.
Cell phones work by sending out radio waves to communicate with cell towers around them. Radiofrequency energy from a cell phone is nonionizing radiation; it’s classified as non-ionizing because it doesn’t have enough energy to remove electrons from atoms or molecules in your body, which is what ionizing radiation does. Ionizing radiation can break chemical bonds in molecules and damage DNA molecules. Although some limited studies are showing possible links between ionizing radiation exposure and certain types of cancer (e.g., Hodgkin lymphoma), many studies have been done looking at whether or not cell phone use causes brain tumors or other cancers—and no link has been found between these two things so far!
Are some people more sensitive to RF energy than others?
It is generally accepted that RF energy has biological effects on humans. However, it is not clear whether these effects are harmful or benign. The main reason for this uncertainty is that we have not been able to study human exposure to radiofrequency fields of cell phones in a laboratory setting because they would be considered too dangerous to conduct such experiments. Because of this, most studies on the biological effects of cell phone radiation were done using animal models (usually rodents) and cell cultures.
For some people, exposure to RF energy may cause more harmful health effects than others. This difference in sensitivity could be due to how individuals’ bodies respond to radiation or other factors such as genetics and body size (i.e., big people might be less sensitive than smaller people).
The best way to minimize RF exposure from your mobile device is by using hands-free options when talking on your phone (e.g., speakerphone or wired headphones with a microphone) rather than holding your phone against your head while talking; remaining at least 5 feet away from wireless access points when possible (like those found in airports or shopping malls); keeping wireless devices off when not being used; turning off Wi-Fi networks when not being used; keeping conversations short on mobile phones (especially those close up); making sure all contact surfaces between you and any electronic devices have protective cases or covers if necessary; staying away from radios/radios stations while sleeping as these emit similar frequencies as cell phones do; avoiding unnecessary use of mobile gadgets during critical times like exams, etc.; not carrying around unnecessary items like books/newspapers, etc., which might provide more surface area for EMFs.
Though it’s hard to say if cell phone use causes cancer, the evidence says it’s not harmful.
Though it’s hard to say if cell phone use causes cancer, the evidence says it’s not harmful.
The National Cancer Institute (NCI) classifies cell phones as possible carcinogens due to weak associations between heavy cell phone use and brain tumors. But that doesn’t mean that using your phone all day will give you cancer. The NCI noted that “most studies published so far have had limited numbers of subjects, used short-term exposure measures, or were highly susceptible to bias.” In other words: More research needs to be done before we can definitively say anything about cellular phones and cancer risk.
So what do we know? Well, for starters, there isn’t any consistent evidence linking cell phones with brain tumors—even among people who have been diagnosed with them (a group known as glioma patients). In fact, in 2018, a study from Sweden found no link between phone usage and glioma risk when comparing those who had used their devices for six months or more compared with those who hadn’t at all—or less than six months!
There are also other potential health concerns related to using your smartphone too much—like carpal tunnel syndrome and eye problems like dryness or blurry vision—but not cancer specifically. And if you’re concerned about radiation exposure from your mobile device itself rather than how long you spend talking on it every day? One recent paper found no difference in radiation levels between holding an unconnected power bank next to a connected one while both charged their batteries!
A little maintenance can go a long way in terms of extending the life of your phone battery. For starters, try to keep it as cool as you can, especially if you live or work in a hot climate. Overheating will kill the battery much faster than normal use. It’s also important to keep it properly charged, which is to say, between 80 and 100 percent most of the time. And don’t let it drain all the way to zero very often—this also accelerates aging and shortens lifespan. If you are having problems with your current battery, there are some options for fixing them:
Check your warranty first. Most smartphones come with one-year warranties that cover manufacturing defects like this one, so if your phone is under warranty, reach out directly to whatever company made it or the place where you bought it and find out what they’ll do for you. If they don’t replace the battery without charging a fee, then look into replacement companies that specialize in this kind of service (see below).
Replace the battery yourself. This option is not for beginners but can be done by anyone willing to take a risk with some basic tools and common sense (see tips below). You’ll save money this way but run a greater risk of damaging or breaking something else in your device through ignorance and/or maladroitness, so proceed carefully! Replacement batteries can be purchased almost anywhere for comparatively cheap and often come with instructions on how to install them yourself safely, so no need to worry too much about teaching yourself from scratch; just follow directions exactly as given when replacing batteries at home.
Go back through whichever company made it or store where you bought it originally; sometimes, these places offer free replacement services for defective batteries during certain periods throughout any given year! Be sure not
there are several ways to safely dispose of a Smart Phone battery
Recycle your old phone batteries at the local recycling center.
Drop off the battery at a local collection point.
Contact your electricity provider to see if they run a recycling scheme where they collect old batteries, or they give them to people who will recycle them. Also, ask if they have any collection points.
You could get in touch with your local council and see if there is a battery collection point near you; also, ask them what happens to the batteries they collect, as some councils send these to specialized treatment centers where the batteries are either broken down or melted down into liquid metal so it can be sorted out for recycling purposes.
Call your local recycling center and ask if they accept old phone batteries.
Call your local recycling center and ask if they accept old phone batteries. If you’re able to drop yours off at a facility near you, be sure to double-check that they do indeed recycle the lithium-ion batteries found in smartphones before making the trip there.
The location will likely send them off to a third party so that the battery can be recycled safely, with all its components broken down and reused in other materials.
By taking this environmentally conscious step, you’ll be joining the millions of Americans who recycle phone batteries every year, reducing their impact on landfills and helping keep hazardous materials from entering our ecosystem.
Be confident about the capabilities of the recycling center you chose.
When you take your old smartphone’s battery to a recycling center, find out if the facility is certified by an independent governing body. This ensures they are equipped to handle it properly. Be sure that they are also able to properly dispose of the battery. The recycling center should be able to provide certification of compliance with state and federal laws and a proper chain-of-custody document from the time you dropped off your battery until its destruction.
Donate your old phone to organizations that resell or recycle used electronics.
Donating old phones is a great way to give them another life, but you can’t donate phones that have been damaged in water or have been opened. Make sure your phone is still functioning properly so they can donate it to someone in need.
Here are some organizations that accept and recycle used electronics:
Let’s start by talking about what radiation actually is. Radiation is a type of energy produced by certain atoms (called isotopes) when they break up or change their composition. It’s essentially any emission of energy in the form of electromagnetic waves or particles. This includes X-rays, gamma rays, ultraviolet light, and visible light. This type of radiation is invisible to humans and we can only detect it via machines like Geiger counters, which measure levels of radiation in a given area, or detectors on satellites in space that monitor solar activity.
All these different forms of radiation have very different properties and effects on human health. For example, some types (like sunlight) are essential for life because they help our bodies make vitamin D; other types (like UV rays) can cause skin cancer if you get too much exposure; still others – including X-rays – are potentially harmful to your health but are so useful to diagnose problems with the human body that we accept the risks involved.
Wi-Fi and cancer.
It’s true that the World Health Organization (WHO) has classified radiofrequency radiation from Wi-Fi as a possible carcinogen. But that doesn’t mean you should throw your router away.
Radiofrequency radiation, which is produced by devices like Wi-Fi routers and cellphones, has been classified as a Group 2B carcinogen by the International Agency for Research on Cancer (IARC), a branch of the WHO. Group 2B means “possibly carcinogenic to humans,” and it was first used to describe coffee in 1991. However, keep in mind this classification is based on limited evidence — animal studies have connected prolonged exposure to radiofrequency radiation with cancerous tumors, but there aren’t any conclusive studies showing this link in humans yet.
Wi-Fi and brain function.
There is limited evidence that long-term, high use of cell phones may be linked to certain types of cancer and other health effects. More research is needed. However, there’s no evidence that Wi-Fi networks in schools cause adverse health effects.
A large study in children found no link between brain tumor risk and cellular phone use. It did find a statistical increase in tumors among heavy users of cordless phones but the researchers could not conclude that it was caused by the phones (there were other possible explanations).
Some studies have shown an increased risk for gliomas—a type of malignant brain tumor—and acoustic neuromas (noncancerous tumors) among people who reported using mobile or cordless phones for 10 years or more. But these studies did not show a causal relationship between phone use and tumor growth; they only showed an association between the two factors. More research is needed to show whether there’s a direct cause-and-effect relationship between cancer risk and cell phone use.
Effect on children.
Children are more vulnerable to the effects of Wi-Fi radiation, since their nervous systems, organs and tissues are still developing. Repeated exposure to Wi-Fi radiation during childhood may damage cells and cause problems with learning, memory and behavior later in life.
Wi-Fi is especially dangerous for children because it can affect their brain function. Children’s brains absorb two times more mobile phone radiation than adults’ brains do. This is why it’s important to keep your kids away from mobile phones and other wireless devices as much as possible (especially when they’re sleeping).
For newer devices, the chance of disturbance is low.
For newer devices, the chance of disturbance is low. It’s a little difficult to say for older ones, though. For example, the LG Nexus 4 has a magnetic sensor installed, and that might interfere with the GPS signal if you’re using the phone in your car. That said, it’s unlikely that this would cause permanent damage to any major components since most devices are built to handle electromagnetic radiation from sensors (magnetic or otherwise). Older phones are also less likely to be harmed by magnetic fields because they tend to have weaker magnetic sensors than newer ones.
If you have an older device, it might be a little difficult to say.
If you have an older device, it’s a little more difficult to say. The magnetic sensors in some Android devices are pretty strong and can be used with compass apps that help you identify your location while traveling. But those magnetic sensors are designed not to be affected by nearby magnets, and they too have their limitations.
In any case, it’s a good idea not to let your phone hang out next to anything else that might be magnetic.
However, there are some cases where a strong magnet can create a disturbance in the reading of your compass.
Your device is a small GPS unit. It will use the compass to figure out what direction you are facing.
In some situations, you may want to use the compass on your Android device. For example, if you are lost in the woods and need to find your way back, you can use the compass to help you navigate. You can also use it when exploring an area or trying to find something else.
However, there are some cases where a strong magnet can create a disturbance in the reading of your compass. This is why many people avoid using cell phones near magnetic fields such as those found in hospitals or other places that have large amounts of metal objects around them.
The reason for this is because the magnetic field from these items interferes with the reading of your phone’s compass sensor which is always on even when it’s not being used for anything else at all!
So if you use a magnetic cover for your phone,it could cause problems with your GPS signal when you’re trying to navigate around town.
If you have a magnetic cover on your phone and you’re trying to navigate around town, it could cause problems with your GPS signal.
Strong magnets can affect the compass, so if you use a cover with a magnet in it, this may happen to you. Every phone has a magnetic sensor that is used by apps like Google Maps to tell which direction the phone is facing. When the compass is affected by an external magnet like the one in your case, it sends back bad information about its orientation and causes issues for applications using it.
As was previously mentioned, older devices are more susceptible to this than newer phones because of how they were built; newer devices have stronger magnets and chips that are less prone to interference from outside sources.
Okay, so if I use a magnetic cover on my device can I still use apps like Google Maps? Yes! You can typically test whether or not this issue will occur with some quick troubleshooting:
Take your magnet-covered phone and hold it near another electronic device such as a laptop or tablet (you’ll know this works if the screen starts dimming and turning off). Then check if your device’s GPS signal is still working normally. If there’s a problem with GPS functionality when the magnet is being held up to your device, you probably need to switch cases.
Blue Light interrupts our Circadian Rhythm, which is the sleep-wake cycle.
Your circadian rhythm is the sleep-wake cycle that’s regulated by light. If you’ve ever heard someone mention the phrase “circadian rhythm,” they were referring to this. Melatonin is the hormone that regulates your circadian rhythm, and it’s triggered in part by darkness. Blue light is a specific wavelength of light and it can be particularly disruptive to our sleep cycles especially at night because it suppresses melatonin production.
So what does blue light have to do with your phone? Well, LED screens emit blue light and if you’re scrolling through Facebook before bedtime, you might just be messing up your Circadian Rhythm.
This light is also released by electronic devices such as cell phones.
While the science behind blue light’s effect on sleep is not definitive, it may be beneficial to reduce exposure to blue light in the evening and before sleeping. This light can affect our circadian rhythm—our bodies’ natural wake-sleep cycle that is regulated by how much exposure we get to sunlight throughout the day.
Because blue light can pass through the retinas and get into the brain, it’s possible that it may cause cognitive fatigue and become a source of insomnia. While more research needs to be done in this area, we do know that overexposure to blue light can decrease melatonin production; melatonin is a hormone that helps us fall asleep.
This light can actually enter the brain by passing through your retinas.
As you may have experienced, the blue light can affect your sleep by disrupting your natural circadian rhythm as well as increasing alertness. Blue light can also be called high energy visible (HEV) light. HEV light is produced naturally by the sun and has a shorter wavelength than other colors of light. While there is nothing inherently wrong with blue light, it does have these two negative effects on our bodies that are important to note and understand why we should avoid exposure at night-time.
The first effect occurs because blue light can actually enter the brain by passing through your retinas, which triggers the neuroendocrine system to release hormones like cortisol and adrenaline that keep you awake. The second effect happens when these same hormones suppress melatonin production. Melatonin is a hormone in our body that helps regulate sleep patterns and your body’s overall circadian rhythm or internal clock.
This can cause cognitive fatigue as well as a decrease in melatonin production.
The light from your smartphone, tablet, or laptop can affect the production of a sleep hormone called melatonin. This can cause cognitive fatigue as well as a decrease in melatonin production.
Melatonin is a hormone that regulates circadian rhythm and helps you sleep. It’s produced in the pineal gland, located in the brain. The pineal gland produces high levels of melatonin at night when it’s dark — helping to induce sleep. In the morning, when it’s light out, production declines and you wake up.
Low melatonin levels can cause poor sleep and insomnia. Poor or insufficient sleep can lead to several physical and mental health conditions like:
impaired immune function
Melatonin is a hormone that helps to regulate sleep.
The production of melatonin is triggered by darkness, and suppressed by light; this is called a circadian rhythm (from Latin words that mean “about a day”). Your brain naturally releases more melatonin as the day goes on and you get closer to bedtime. Melatonin levels will stay high for the majority of the night, then drop in the early morning as light increases.
It’s easy to see why blue light can mess with your sleep schedule when you look at its impact on melatonin. The blue wavelengths emitted by smartphones, tablets, and computer screens are short, meaning they carry more energy than longer wavelengths — like red or orange ones. These short wavelengths also happen to affect our bodies similarly to sunlight; thus, we find ourselves alert and awake during daylight hours when we should be going about our days.
In addition to affecting your natural sleep-wake cycle, exposure to blue light at night may increase your risk for certain cancers, diabetes, heart disease, and obesity. It may also accelerate skin aging.
Long story short, your android phone (or other smart phone) can affect your sleep
The world has never been crazier, and we’re only getting started. Some health experts are worried that the constant barrage of bright light emitted by our smartphones may actually be affecting our sleep.
The fact of the matter is, there’s no way to know if your phone is affecting your sleep without talking to a professional, but scientists are sure that it can.
Research points to various negative effects of smartphone use on sleep patterns.
Studies show that keeping phones close at night disturbs melatonin production in humans; a hormone that helps regulate the body’s internal clock, which helps us get more restful sleep at night. Melatonin can also reduce eye pressure, which would likely leave you feeling tired and sick. All of this lowers cognitive performance and cognitive fatigue during waking hours, which may have an effect on your ability to concentrate properly throughout the day and make difficult decisions later in life (like quitting smoking or developing alcohol dependency).
Let your device care for your eyes Our application is designed by scientists and optometrists so that your device can protect your eyes and these of your children against myopia app.
Researchers have found a link between myopia and long-term usage of smartphones, which begs one question: What do shortly for the millions of kids who are growing to be digitally savvy?
Myopic children consume more than twice the amount of data on smartphones every day as peers with no myopia, a new study has revealed, leading researchers to consider the possibility that iGen’s unrivaled connectivity at the age of 5 can further increase myopia-related risk.
The study was published in the online Journal of Clinical and Experimental Optometry The study revealed that myopic refractive error was associated with an increase in the use of smartphones in children with normal vision who consume on average 614 megabytes of data every day and spent more than 4 half hours per day on the phone Myopes, on the other hand, consumed 1131 MB in data per day and spent more than five hours on the phone each day. The results add to the increasing amount of evidence that demonstrates the effects of greater technology usage on refractive error and raises questions about the future generation of American-iGen or Gen Z, who are growing up with an overwhelming amount of digital devices.
Based on the events from both rooms, the risk for myopia development and change may be higher in this pandemic condition.
However, over 9 out of 10 (93 percent) generation millennials have smartphones and are ahead of all the rest of American generations in their adoption and usage of technology, the generation between the ages of 24 and 39 isn’t able to claim the title that is digital natives. This title is reserved for Gen Z, those born after 1996 and who don’t have any memories of the world before smartphones. 95% of American teenagers are either using or are connected to a smartphone and almost half of them say they’re connected regularly.
The use of digital devices has exploded since the last few years as myopia incidence and age of the onset. In just four decades U.S. myopia prevalence has increased from 25 percent of Americans to 42% of Americans and analysis in 2018 of 60,800 kids in southern California discovered that 59 percent of 17-to 19-year-olds have myopia. If that weren’t significant enough, the prevalence of myopia globally could rise to 52% within the coming three years. This is the reason for this global study, which originated at Dublin’s University of Dublin.
In the study, researchers surveyed the use of smartphones in 418 Irish students who were enrolled in primary (K-6) as well as secondary (7-12) and Tertiary (university) education, after which they compared their refractive levels. The data used by students’ smartphones were recorded over a prolonged period, along with the top three apps that consumed the most data, as well as the estimated amount of time they spent on a phone.
Students employed the average amount of 873 + 1 038 MB (mean +/- the standard variance) of data per day and around four hours using their phones each day, mostly using social media applications (Snapchat, Instagram, and Facebook). Researchers discovered that myopes not just used greater amounts of data (1,131 +1 748 MB data per day, as compared to 614 + 902 MB of data/day) and used more time on their phones than other users, but also had a higher likelihood to believe that screen use could impact their eyes.
It is interesting to note that the majority of myopes thought digital technology could negatively impact their eyes, compared to 68% of non-myopes. both groups reporting dry eyes (67 percent) and eye strain (29 percent). The same percentage of non-myopes, as well as myopes, believe that using screens on a computer could lead to myopia (31 percent and 25% and 25%, respectively).
The lifestyle practices of children and adolescents today have undeniably improved with improvements in technology and while the prevalence of myopia has been building for decades, the increased level of near-visible stimulation from smartphones may model an extra free risk for myopia, authors write.
Smartphones differ from regular reading in several features such as wavelength, distance from the eye, size, contrast, resolution, temporal properties, and phantom composition, all of which merit investigation. Aside from this, children and teenagers now spend more (time) than ever using a smartphone that demands proximal attention, which may compete with other more protecting projects such as time outdoors.
Evidence corroborative Myopia App
The latest study isn’t the only one that has found a relationship between myopia apps with smartphone usage. A 2019 PLoS One study found a connection between computer and smartphone use with higher refractive errors, however, it found no connection with TV viewing or studies after school. Furthermore, researchers from the PLoS One study found a statistically significant correlation with outdoor times and lower myopia, however only for the midday period in which the light is highest.
Yi Pang, M.D., O.D., Ph.D. is the associate dean for research at the Illinois College of Optometry, states that youngsters spend more time using digital devices. Additionally, research has found that spending longer in close work and/or shorter working distances can lead to myopia development. This is a warning sign since children have are just finishing their months of distance learning using laptops and handheld devices because of pandemic lockdowns.
With the COVID-19 pandemic, the time on electric tools dramatically improved in children because of remote training and fewer chances for kids to do other activities, Dr. Pang says. Based on the issues from both rooms, the risk for myopia growth and progression may be higher in this pandemic situation.
But, as Professor. Pang notes, both studies only showed myopia-related organizations, but no causality could be a reason for further research.
Dr. Pang adds: Eye care practitioners should be aware of this issue and be ready to address parents’ and patients’ concerns.
There you are sitting on the plane, bus, train, or camel. The kids are crying, biting you and each other what to do? Well since people will report you
if you tie them up and gag them, here is an alternative. Yes, you guessed it Apps apps and more apps in the fabulous Marketplace there are apps to keep their little ones from driving you crazy. All these apps were tested by a 16-month-old girl on a Motorola droid so your mileage may vary but she loved them all her favorite was toddler lock.
Abduction! for Android This game has a bouncing cow what else could you ask for. It also has many different levels from super easy to super insane your little ones will love the bouncing cow check it out. Free in the marketplace also has a paid version
Toddler Lock for Android This is a drawing app and it makes noises what could be better also can be used in airplane mode. It is free and it has a donate version
Kids Piano for Android A piano on a duck what will they think of next. It has a play mode so the kids can bang out the notes and it has a song mode which tries to have the child play the song and it says try again if they hit the wrong key.
Zebra Paint for Android Finger painting on your Android device without getting real paint on it is good for older kids who like to color. Out of these super apps only toddler lock locks the phone so the kids cant make calls on accident or exit the app you can also put the phone into airplane mode from the toddler lock app.