Apple's Watch Ultra, with its 2000-nit digital display and GPS capabilities, is a far cry from its Revolutionary War-era self-winding forebears. What sorts of wondrous body-mounted technologies might we see another hundred years hence? In his new book, The Skeptic's Guide to the Future, Dr. Steven Novella (with assists from his brothers, Bob and Jay Novella) examines the history of wearables and the technologies that enable them to extrapolate where further advances in flexible circuitry, wireless connectivity and thermoelectric power generation might lead.

Grand Central Publishing

Excerpted from the book The Skeptics' Guide to the Future: What Yesterday's Science and Science Fiction Tell Us About the World of Tomorrow by Dr. Steven Novella, with Bob Novella and Jay Novella. Copyright © 2022 by SGU Productions, Inc. Reprinted with permission of Grand Central Publishing. All rights reserved. 

Technology that Enables Wearables

As the name implies, wearable technology is simply technology designed to be worn, so it will advance as technology in general advances. For example, as timekeeping technology progressed, so did the wristwatch, leading to the smartwatches of today. There are certain advances that lend themselves particularly to wearable technology. One such development is miniaturization.

The ability to make technology smaller is a general trend that benefits wearables by extending the number of technologies that are small enough to be conveniently and comfortably worn. We are all familiar by now with the incredible miniaturization in the electronics industry, and especially in computer chip technology. Postage-stamp-sized chips are now more powerful than computers that would have filled entire rooms in prior decades.

As is evidenced by the high-quality cameras on a typical smartphone, optical technology has already significantly miniaturized. There is ongoing research into tinier optics still, using metamaterials to produce telephoto and zoom lenses without the need for bulky glass.

“Nanotechnology” is now a collective buzzword for machines that are built at the microscopic scale (although technically it is much smaller still), and of course, nanotech will have incredible implications for wearables.

We are also at the dawn of flexible electronics, also called “flex circuits” and more collectively “flex tech.” This involves printing circuits onto a flexible plastic substrate, allowing for softer technology that moves as we move. Flexible technology can more easily be incorporated into clothing, even woven into its fabric. The advent of two-dimensional materials, like carbon nanotubes, which can form the basis of electronics and circuits, are also highly flexible. Organic circuits are yet another technology that allows for the circuits to be made of flexible material, rather than just printed on flexible material.

Circuits can also be directly printed onto the skin, as a tattoo, using conductive inks that can act as sensors. One company, Tech Tats, already offers one such tattoo for medical monitoring purposes. The ink is printed in the upper layers of the skin, so they are not permanent. They can monitor things like heart rate and communicate this information wirelessly to a smartphone.

Wearable electronics have to be powered. Small watch batteries already exist, but they have finite energy. Luckily there are a host of technologies being developed that can harvest small amounts of energy from the environment to power wearables (in addition to implantable devices and other small electronics). Perhaps the earliest example of this was the self-winding watch, the first evidence of which comes from 1776. Swiss watchmaker Abraham-Louis Perrelet developed a pocket watch with a pendulum that would wind the watch from the movement of normal walking. Reportedly it took about fifteen minutes of walking to be fully wound.

There are also ways to generate electric power that are not just mechanical power. Four types of ambient energy exist in the environment—mechanical, thermal, radiant (e.g., sunlight), and chemical. Piezoelectric technology, for example, converts applied mechanical strain into electrical current. The mechanical force can come from the impact of your foot hitting the ground, or just from moving your limbs or even breathing. Quartz and bone are piezoelectric materials, but it can also be manufactured as barium titanate and lead zirconate titanate. Electrostatic and electromagnetic devices harvest mechanical energy in the form of vibrations.

There are thermoelectric generators that can produce electricity from differences in temperature. As humans are warm-blooded mammals, a significant amount of electricity can be created from the waste heat we constantly shed. There are also thermoelectric generators that are made from flexible material, combining flex tech with energy harvesting. This technology is mostly in the prototype phase right now. For example, in 2021, engineers published the development of a flexible thermoelectric generator made from an aerogel-silicone composite with embedded liquid metal conductors resulting in a flexible that could be worn on the wrist and could generate enough electricity to power a small device.

Ambient radiant energy in the form of sunlight can be converted to electricity through the photoelectric effect. This is the basis of solar panels, but small and flexible solar panels can be incorporated into wearable devices as well.

All of these energy-harvesting technologies can also double as sensing technology—they can sense heat, light, vibration, or mechanical strain and produce a signal in response. Tiny self-powered sensors can therefore be ubiquitous in our technology.

The Future of Wearable Tech

The technology already exists, or is on the cusp, to have small, flexible, self-powered, and durable electronic devices and sensors, incorporated with wireless technology and advanced miniaturized digital technology. We therefore can convert existing tools and devices into wearable versions, or use them to explore new options for wearable tech. We also can increasingly incorporate digital technology into our clothing, jewelry, and wearable equipment. This means that wearable tech will likely increasingly shift from passive objects to active technology integrated into the rest of our digital lives.

There are some obvious applications here, even though it is difficult to predict what people will find useful versus annoying or simply useless. Smartphones have already become smartwatches, or they can pair together for extended functionality. Google Glass is an early attempt at incorporating computer technology into wearable glasses, and we know how it has been received.

If we extrapolate this technology, one manifestation is that the clothing and gear we already wear can be converted into electronic devices we already use, or they can be enhanced with new functionality that replaces or supports existing devices.

We may, for example, continue to use a smartphone as the hub of our portable electronics. Perhaps that smartphone will be connected not only to wireless earbuds as they are now, but also to a wireless monitor built into glasses, or sensors that monitor health vitals or daily activity. Potentially, the phone could communicate with any device on the planet, so it could automatically contact your doctor’s office regarding any concerning changes, or contact emergency services if appropriate.

Portable cameras could also monitor and record the environment, not just for documenting purposes but also to direct people to desired locations or services, or contact the police if a crime or disaster is in progress.

As our appliances increasingly become part of the “internet of things,” we too will become part of that internet through what we wear, or what’s printed on or implanted beneath our skin. We might, in a very real sense, become part of our home, office, workplace, or car, as one integrated technological whole.

We’ve mostly been considering day-to-day life, but there will also be wearable tech for special occupations and situations. An extreme version of this is exosuits for industrial or military applications. Think Iron Man, although that level of tech is currently fantasy. There is no portable power source that can match Iron Man’s arc reactor, and there doesn’t appear to be any place to store the massive amounts of propellant necessary to fly as he does.

More realistic versions of industrial exosuits are already a reality and will only get better. A better sci-fi analogy might be the loader exo-suit worn by Ripley in Aliens. Powered metal exosuits for construction workers have been in development for decades. The earliest example is the Hardiman, developed by General Electric between 1965 and 1971. That project essentially failed and the Hardiman was never used, but since then development has continued. Applications have mostly been medical, such as helping people with paralysis walk. Industrial uses are still minimal and do not yet include whole-body suits. However, such suits can theoretically greatly enhance the strength of workers, allowing them to carry heavy loads. They could also incorporate tools they would normally use, such as rivet guns and welders.

Military applications for powered exosuits would likely include armor, visual aids such as infrared or night-vision goggles, weapons and targeting systems, and communications. Such exosuits could turn a single soldier into not just enhanced infantry, but also a tank, artillery, communications, medic, and mule for supplies.

Military development might also push technology for built-in emergency medical protocols. A suit could automatically apply pressure to a wound to reduce bleeding. There are already pressure pants that prevent shock by helping to maintain blood pressure. More ambitious tech could automatically inject drugs to counteract chemical warfare, increase blood pressure, reduce pain, or prevent infection. These could be controlled by either onboard AI or remotely by a battlefield medic who is monitoring the soldiers under their watch and taking actions remotely through their suits.

Once this kind of technology matures, it can then trickle down to civilian applications. Someone with life-threatening allergies could carry epinephrine on them to be injected, or they could wear an autoinjector that will dose them as necessary, or be remotely triggered by an emergency medical responder.

Everything discussed so far is an extrapolation from existing technology, and these more mature applications are feasible within fifty years or so. What about the far future? This is likely where nanotechnology comes in. Imagine wearing a nanosuit that fits like a second skin but that is made from programmable and reconfigurable material. It can form any mundane physical object you might need, on command. Essentially, the suit would be every tool ever made.

You could also change your fashion on demand. Go from casual in the morning to business casual for a meeting and then formal for a dinner party without ever changing your clothes. Beyond mere fashion, this could be programmable cosplay—do you want to be a pirate, or a werewolf? More practically, such a nanoskin could be well ventilated when it’s warm and then puff out for good insulation when it’s cold. In fact, it could automatically adjust your skin temperature for maximal comfort.

Such material can be soft and comfortable, but bunch up and become hard when it encounters force, essentially functioning as highly effective armor. If you are injured, it could stem bleeding, maintain pressure, even do chest compressions if necessary. In fact, once such a second skin becomes widely adopted, life without it may quickly become unimaginable and scary.

Wearable technology may become the ultimate in small or portable technology because of the convenience and effectiveness of being able to carry it around with us. As shown, many of the technologies we are discussing might converge on wearable technology, which is a good reminder that when we try to imagine the future, we cannot simply extrapolate one technology but must consider how all technology will interact. We may be making our wearables out of 2D materials, powered by AI and robotic technology, with a brain-machine interface that we use for virtual reality. We may also be creating customized wearables with additive manufacturing, using our home 3D printer.

Ahead of its annual MAX event next month, Adobe has unveiled the 2023 version of its non-subscription Elements products. As with yearspast, the highlights are new AI features like animation for Photoshop Elements images and AI-applied art styles for Premiere.

For Photoshop Elements 2023, the most dramatic update is the ability to add motion to still photos. To do so, you just need to select the part of the image you want to move and indicate the direction of movement using the arrow tool. The AI will then do the rest, adding appropriate movement to water, fabrics, sand and so on. A bit cheesy, sure, but it could work in some situations. 

Adobe

Another key tool for Photoshop Elements is guided edits. That lets you do things like "peek-throughs" or putting foreground objects in a photo, along with "perfect portrait" that lets you smooth blemishes, whiten teeth, adjust face tilt or make the subjects smile wider (or even change a blink to open their eyes). Another guided lets you replace an ugly background with, say, a sunset. 

The perfect portrait feature adds a touch of uncanny valley to subjects if overused, and the background replacement work can be a bit wonky, depending on how well the AI isolates your subject. Still, it could be fun for certain uses. Other features include new collage and slideshow templates, faster performance, Apple M1 chip support and a new Android companion app to upload mobile photos and videos to Elements on desktop (English-only beta).  

Adobe

The key feature for Premiere Elements also revolves around Adobe's Sensei AI. The "artistic effects" tool lets you add painterly styles to video including Van Gogh, DaVinci, Monet and so on. The effect takes motion into account for a consistent look, though again, this can get very tacky if overused. 

Adobe also added over 100 new audio tracks to give you some free music for videos, while boosting performance and stability and adding Apple M1 chips support. The Android companion app can also be used with Premiere Elements to make it easier to upload videos from your phone (again, only for the English-only beta). Adobe Photoshop Elements and Premiere Elements are now available for $100 new or $80 as upgrades, or $150 for both products ($120 as an upgrade). 

Twitter is still having trouble curbing the spread of CSAM (child sexual abuse material). Insider has learned (subscription required) that Twitter inadvertently ran ads on profiles either selling or soliciting CSAM. In an email to marketers, the social network said it had suspended all ads on profiles, updated its detection systems, banned accounts that broke its rules and launched an investigation. Reutersnotes Coca-Cola, Disney and NBCUniversal were some of the brands whose ads appeared next to the offending content.

Existing technology had already blocked over 91 percent of accounts like these, Twitter said. In its most recent transparency report, the company said it took action against 31 percent more CSAM-related accounts in the second half of 2021.

A Twitter spokesperson confirmed the incident and investigation in a statement. On top of existing work to catch CSAM, the company said it was ensuring it had the "right models, processes and products" to protect both advertisers and users.

The news is ill-timed for Twitter. It comes just weeks after The Verge reported that Twitter ditched efforts to build an OnlyFans clone over concerns it couldn't effectively catch CSAM and other forms of sexual abuse. It's also emerging as the social media continues to fight with Elon Musk over the fate of his potentially cancelled $44 billion acquisition. Musk has focused most of his objections on alleged misreporting of fake account data.

There's been an immediate financial impact as well. Reuters added that big names like Dyson and Mazda had either frozen their marketing campaigns or pulled ads from some areas on Twitter. More might be coming — Coca-Cola and Disney both said they considered the activity unacceptable, while NBCUniversal told Twitter to remove ads that ran against CSAM.

Nearly 15 years after introducing the first Kindle, Amazon is finally adding a stylus to one of its e-readers. At its fall hardware event, the company introduced the Kindle Scribe. The device features a 10.2-inch, 300ppi display with an adjustable front light and a stylus that magnetically attaches to it. According to Amazon, you don't need to charge or sync the Scribe's stylus. 

Kindle Scribe will cost $339 when it arrives later this year.

Developing...

Follow all of the news from Amazon's event right here!

Logitech is today announcing a quartet of products in its Designed for Mac series of wireless accessories. The first headline item is the MX Mechanical Mini (for Mac), an Apple-favoring variation on the existing MX Mini which launched earlier this year. Fundamentally, it’s the same product as before, offering a refined twist on the mechanical tenkeyless keyboards currently en vogue. Naturally, you’ll get macOS-specific keycaps, and it’s available in a pair of more Mac-friendly colors: Space Gray or Pale Gray.

Next up is a Mac-specific version of the company’s flagship MX Master 3S mouse, again in Space Gray or Pale Gray. That carries over all of the same features as the existing 3S, and if we’re being honest, there’s little reason for this to exist as a separate model. After all, the standard 3S is a universal model, and it can already be customized with Mac-specific shortcuts in the macOS version of Options+, Logitech’s app for accessory tweaking. But if you’re looking for consistency in your color choices, then if the prices are the same, then there’s also little option not to choose this one.

Logitech

The other major launch is for the Lift for Mac which, like the above, is a Mac-hued version of its existing vertical mouse. Logitech says that the 57-degree angle of attack places your mitt in a natural handshake position for better comfort. At the same time, the company is rolling out a new color for its K380 wireless keyboard, this time in Blueberry. You can also pick up the accompanying mouse in that same hue, should you wish to go all matchy matchy with your purple M1 iMac.

All four products are available to buy this month from Logitech’s official website and, most likely, your retailer of choice. The MX Mechanical Mini will set you back $150, while the MX Master 3S is marked up at $100, with the Lift costing $70, and the blueberry K380 is $40.

Fast Company readers who subscribe to updates from the business publication via Apple News have received a couple of obscene push notifications with racial slurs on Tuesday night. The messages caught a lot of users off guard — they truly could induce a spit take if you weren't expecting them — and people took to Twitter to post screenshots. In a statement, Fast Company has told Engadget that its Apple News account was hacked and was used to send "obscene and racist" push notifications." It added that it's investigating what happened and that it has gone as far as shutting down the whole FastCompany.com domain for now.

The publication said:

“Fast Company’s Apple News account was hacked on Tuesday evening. Two obscene and racist push notifications were sent about a minute apart. The messages are vile and are not in line with the content of Fast Company. We are investigating the situation and have suspended the feed and shut down FastCompany.com until we are certain the situation has been resolved.”

Apple has addressed the situation in tweet, confirming that the website has been hacked and that it has suspended Fast Company's account:

At the moment, Fast Company's website loads a "404 Not Found" page. Before it was taken down, though, the bad actors managed to post a message detailing how they were able to infiltrate the publication, along with a link to a forum where stolen databases are made available for other users. They said that Fast Company had a default password for WordPress that was much too easy to crack and used it for a bunch of accounts, including one for an administrator. From there, they were able to grab authentication tokens, Apple News API keys, among other access information. The authentication keys, in turn, gave them the power to grab the names, email addresses and IPs of a bunch of employees.

A user called "Thrax" posted in the forum they linked on the publication's website, announcing that they were releasing a database containing 6,737 employee records. These include employees' emails, password hashes for some of them and unpublished drafts, among other information. They weren't able to get their hands on customer records, though, most likely because they're kept in a separate database.

Probably the biggest change Apple announced with iPadOS 16 earlier this year is Stage Manager, a totally new multitasking system that adds overlapping, resizable windows to the iPad. That feature also works on an external display, the first time that iPads could do anything besides mirror their screen on a monitor. Unfortunately, the feature was limited to iPads with the M1 chip — that includes the 11- and 12.9-inch iPad Pro released in May of 2021 as well as the M1-powered iPad Air which Apple released earlier this year. All other older iPads were left out.

That changes with the latest iPadOS 16 developer beta, which was just released. Now, Apple is making Stage Manager work with a number of older devices: it'll work on the 11-inch iPad Pro (first generation and later) and the 12.9-inch iPad Pro (third generation and later). Specifically, it'll be available on the 2018 and 2020 models that use the A12X and A12Z chips rather than just the M1. However, there is one notable missing feature for the older iPad Pro models — Stage Manager will only work on the iPad's build-in display. You won't be able to extend your display to an external monitor.

Apple also says that developer beta 5 of iPadOS 16. is removing external display support for Stage Manager on M1 iPads, something that has been present since the first iPadOS 16 beta was released a few months ago. It'll be re-introduced in a software update coming later this year. Given that some of the iPad community has been pretty vocal about issues with Stage Manager, particularly when using it with an external display, it makes sense that Apple is taking some extra time to keep working on it. 

Obviously, we'll need to try Stage Manager on an older iPad Pro before we can say how well it works, but the A12X and A12Z chips are still plenty powerful, so the experience should hopefully not be any different than on an M1 iPad. It's a bummer that external monitor support isn't included, but this should still be welcome news to people who bought Apple's most expensive iPads in the last few years.

Apple provided Engadget with the following statement about this update:

We introduced Stage Manager as a whole new way to multitask with overlapping, resizable windows on both the iPad display and a separate external display, with the ability to run up to eight live apps on screen at once. Delivering this multi-display support is only possible with the full power of M1-based iPads. Customers with iPad Pro 3rd and 4th generation have expressed strong interest in being able to experience Stage Manager on their iPads. In response, our teams have worked hard to find a way to deliver a single-screen version for these systems, with support for up to four live apps on the iPad screen at once.

External display support for Stage Manager on M1 iPads will be available in a software update later this year.

With the latest GPUs and CPUs from NVIDIA and Intel making their way to consumers, Alienware is updating its Aurora desktop to take advantage of those components. The new Aurora R15 is one of the first pre-built systems to come with a GeForce RTX 4090 option, but even if you don’t go for NVIDIA’s new flagship, the R15 looks to address one of the main flaws of its predecessor.

Building on the Legend 2.0 case design the company introduced last year, Alienware claims the Aurora R15 delivers improved cooling performance thanks to a few tweaks. If you configure the desktop for liquid cooling, it will come with a 240mm radiator instead of a 120mm one as was the case with previous Aurora PCs. Additionally, with the move to Intel’s latest 13th-generation CPUs, any system with a K-series chip will feature five 120mm chassis fans. According to Alienware, those changes make for a system that allows it to push more power to the CPU, translating into a double-digit uplift in performance. At the same time, the processor stays up to 5 degrees Celsius cooler. For context, the Aurora R13 was notorious for featuring inadequate cooling, making it not a good buy for the price Dell was asking for it.   

Alienware has also tweaked its custom Z790 motherboard, adopting a layout that moves the PCIe 16x slot to its usual position closest to the CPU socket. According to the company, it’s a design that will allow the Aurora R15 to accommodate bigger GPUs. As mentioned above, you can configure the computer with NVIDIA’s new $1,600 RTX 4090. For the time being, Alienware won’t offer the more affordable RTX 4080 in either its 12GB or 16GB configurations. Instead, if you want a less expensive GPU, you can go with a previous generation RTX 30 series model or an AMD Radeon RX 6000 series card.

Critically, Alienware will also offer a more powerful PSU option alongside GPUs like the 4090. You can configure the R15 with either a 750-watt or 1,350-watt power supply. Previously, the most powerful PSU Alienware offered was a 1,000-watt model. You’ll definitely need the 1,350-watt PSU if you plan to run the R15 with a 4090.

Alienware

Alongside the Aurora R15, Alienware is introducing a tenkeyless gaming keyboard. The AW420K features plate-mounted Cherry MX Red linear switches, double-shot PBT keycaps and per-key RGB. It’s interesting that Alienware has gone with a tenkeyless layout for its first non full-sized keyboard. The market is saturated with TKL options and in recent years 60 and 65 percent layout keyboards like the Razer Huntsman Mini and GMMK 2 have become more popular among gaming enthusiasts. Still, it’s nice to see Alienware expand beyond 100 percent layouts. The AW420K will cost $130 when it arrives this fall. Alienware plans to share pricing information related to the Aurora R15 closer to availability later in the year.

New Intel PCs will soon have a feature that Macs have offered for years: the ability to text, take calls and send files to their iPhones. That's all thanks to Intel's Unison app, which aims to keep Windows user in their workflow without being distracted by their phones. And yes, it also works with Android devices.

After acquiring the Israeli company Screenovate last year, Intel revamped its phone integration tool to suit more demanding users. With Unison, there's support for VPNs, firewalls and IT manageability. Intel also paid special attention to battery efficiency, as well as juggling wireless connections across Wi-Fi, Bluetooth and cellular. The result is something that could be more useful than Microsoft's Your Phone app for Windows, which looks very polished but only works with Android phones.

According to Josh Newman, Intel's VP of mobile innovation, Unison will offer fast file transfers between phones and computers. (We're still waiting for more details on the actual connection speeds.) For example, you'd be able to quickly take a photo or video on your phone and throw it over to your Windows computer for additional editing. The app will also let you push files from your PC to your phone.

As a lifelong Windows user who can't help but covet the integration between Macs and iOS devices, Unison could be exactly what many PC users have been waiting for. Still, we'll need to see it in action before we make any final judgements, and its limited support could be an issue.

To start, Intel will only offer Unison a few 12th-gen Evo PCs from HP, Acer and Lenovo this fall. Newman says it'll head to future 13th-gen Evo systems next year. When asked if it could ever support earlier Intel hardware, Newman didn't rule it out, but he noted that the company wanted to see how Unison performed on a select group of systems first. There's also nothing stopping Unison from supporting AMD chips eventually, he said, but the companies would have to collaborate to make it happen.

I wasn’t expecting Apple, of all companies, to deliver the most competitively priced smartwatch you can buy in 2022. But with Apple shaving $30 off the cost, the new Watch SE is arguably the most compelling wearable on the market. For $150 less than the new Series 8, this year’s Watch SE delivers a comprehensive suite of health and fitness tools, emergency features and surprisingly few tradeoffs. It even uses the same new chip as the Series 8, and it looks indistinguishable to boot.

Design and hardware

If you’ve seen one Apple Watch, you’ve pretty much seen them all. Unlike the majority of smartwatches for Android users, iPhone owners are stuck with the rounded square face the company has retained year after year. At this point, it feels like most people are used to the shape and have either embraced it, adjusted to it or given up complaining.

I’m one of those who’s decided to no longer waste my breath asking for a round face. At least the Watch SE looks inoffensive and is light, comfortable and well made. The 40mm model I’ve been testing sits nicely on my wrist and most of the time I barely even notice it’s there. A 44mm version is also available.

It’s worth noting that most recent wearables are similarly unobtrusive, though at 26.4 grams (0.93 ounces), the 40mm Apple Watch SE is one of the lightest around. Meanwhile, the Fitbit Sense and the Samsung Galaxy Watch 5 both outweigh it at 37.6 grams and 28.7 grams, respectively.

Cherlynn Low / Engadget

Though the SE’s underside is made from a nylon composite and sapphire crystal instead of the ceramic on its predecessor and the Series 8, I didn’t even realize there was a difference until I scrutinized the spec sheet.

Unlike the Series 8 and Watch Ultra, the new SE isn’t rated IPX6 for dust resistance, but it is water resistant at up to 50 meters. It also uses an older heart rate monitor than the other two, but comes with the same S8 system-in-a-package (SiP) processor, as well as an onboard high-g accelerometer that makes crash detection possible.

Like its predecessor, the SE’s screen is covered by an Ion-X glass as opposed to the sapphire crystal on the Series 8. I’ve had no mishaps with the new SE, though my first review unit of the last-generation device did get seriously damaged, with spiderweb cracks covering the display after it fell off my bathroom sink. If you’re clumsy or anticipate being careless with your smartwatch, it might be worth paying more to get a hardier model.

Display

The Watch SE’s Retina display is bright, crisp and easy to read, even in direct sunlight. That latter trait has a lot to do with the fact that Apple consistently uses colorful text on a black background, which is great for readability. Though Samsung watches like the Galaxy Watch 5 often have higher resolutions and greater brightness, they also sometimes use tiny fonts with low contrast and can be hard to read.

Cherlynn Low / Engadget

The new SE has the same display as its predecessor, which is to say it’s also an LTPO OLED panel that runs at resolutions of 394 x 324 and 448 x 368 for the 40mm and 44mm versions, respectively. It’ll also max out at 1,000 nits of brightness like the older SE and the Series 8.

Besides the lack of a skin temperature sensor, the main difference between this year’s Watch SE and its more premium siblings, is that it doesn’t have an Always On Display (AOD). This just means you’ll have to lift your wrist (fairly deliberately sometimes) to see things like the time, how long you’ve been working out or a notification that just came through. It does take a second for the Watch SE to wake up and show me what I’m looking for, but it never felt too laggy. If you’re the impatient type and have money to spare, though, this is one feature that might make the Series 8 worth the extra $150.

Performance and in use

For the price, it’s impressive that the Watch SE uses the same S8 SiP as the Series 8 and Watch Ultra. In general, this meant the $250 watch was just as snappy as its pricier counterparts at setting new watch faces, measuring my heart rate, starting workouts and more. I wore the SE and a Series 8 during my testing and sometimes it was quicker to detect that I had been walking for 10 minutes or longer, while other times higher-end model would be first. Regardless of which device alerted me first, though, they both clocked roughly the same duration for my outdoor walks.

Cherlynn Low / Engadget

Using the SE to track my daily HIIT and resistance training sessions felt exactly the same as using the Series 8. The only difference was that the latter’s AOD kept the workout screen on so I could more easily keep an eye on stats like elapsed time and calories burned.

The most significant feature that the SE lacks is the new skin temperature sensor that Apple introduced on the Series 8. This measures the wearer’s body temperature overnight and, based on any deviations from a baseline reading, retrospectively estimates if they’ve ovulated. Because the SE doesn’t have the hardware, it doesn’t offer this ovulation-tracking feature. But it does everything else related to cycle and sleep-tracking. You can log your periods or wear this to bed to see how long you’ve spent in zones like REM, Deep and Core sleep.

Despite packing an older heart rate monitor than the Series 8 and Watch Ultra, the SE didn’t take significantly longer to deliver a reading. Frankly, for the most part, I couldn’t tell that there was any difference between the SE and the Series 7 I had been wearing for a year. Missing features like the ECG and blood oxygen apps weren’t things I used much anyway.

Cherlynn Low / Engadget

Battery life

One area where the SE lagged pricier Apple Watches is battery life. While the Series 8 usually stuck around all day with juice to spare the next morning, the SE tended to run dangerously low at night if I’d been particularly active earlier. I usually track one workout every morning and rely on the watches to automatically detect my two to five outdoor walks each day, all while trying to hit my stand and move goals. If I walk for longer than 10 minutes more than twice, the Watch SE will struggle to last till midnight.

Another notable difference between the SE and the Series 7 and later is that it doesn’t offer fast charging, but it never took longer than an hour to get back to 100 percent.

Wrap-up

Apple sacrificed surprisingly few features on the second-gen Watch SE. As a starter smartwatch, it offers plenty of health and fitness-tracking functions, while providing peace of mind via emergency features like crash detection and compass trackback. As long as you’re not extremely clumsy or impatient, you won’t miss things like the hardier screen, dust resistance or always-on display. At $250, the new Watch SE is the best smartwatch for the money.