Meta’s Very Own Smart Glasses Go on Sale Today for $299
Speaking of, Bosworth says Meta has heard feedback that some folks don’t care for the camera capabilities on its smart glasses and would prefer audio-only glasses. “There’s a market demand for that product for sure.” Bosworth then said, “one thing at a time.”
The Meta Fury.
Photograph: Julian Chokkattu
Earlier this month, WIRED discovered code in the public-facing Meta AI app, suggesting that Meta was gearing up to debut a face recognition feature in its consumer smart glasses, technology that may have been trained by a company that builds surveillance tools for the US military and police departments. After WIRED’s report, Meta deleted the code, and none of this technology is present in the new Meta Glasses. Ankit Brahmbhatt, senior director of Product Management for AI Glasses at Meta, tells WIRED there are “no plans for facial recognition,” as it’s not the focus for what the company is building here.
Meta’s goal with these glasses is to get them onto more faces. “It’s more than just whether they fit—fit and comfort are extremely critical to get right—but it’s also your personal brand,” Bristol says. “It’s a really important decision if we want people to wear them as daily driver glasses.” If more people start wearing these Meta Glasses, that means more people are using Meta AI.
Bristol and Bosworth both lamented that with many of today’s AI tools, you have to supply the context manually, whether by providing a picture, document, or search query. With smart glasses, the AI assistant sees what you’re seeing, and that’s one less burden on your part. “It’s not that the thing isn’t smart enough—sometimes that’s a problem—it’s the amount of work I have to do to get it up to speed,” Bosworth says.
But making smart glasses comfier is just one step. Many people are still concerned about the privacy oversteps made possible by wearable cameras that can discreetly record the user’s surroundings. Bosworth believes such anxieties are akin to what happened when smartphones first put high-quality cameras in our pockets.
“There’s this social norming thing that has to happen,” he says. “The glasses are very popular … that doesn’t mean we aren’t worried about every corner case.”
The new Meta Glasses arrive at a turbulent time for the company’s relationship with its workforce. Bosworth himself sent an internal memo to employees last week promising better communication, stability, and workplace perks to improve morale, which is at an all-time low.
Speaking of, Bosworth says Meta has heard feedback that some folks don’t care for the camera capabilities on its smart glasses and would prefer audio-only glasses. “There’s a market demand for that product for sure.” Bosworth then said, “one thing at a time.”
The Meta Fury.
Photograph: Julian Chokkattu
Earlier this month, WIRED discovered code in the public-facing Meta AI app, suggesting that Meta was gearing up to debut a face recognition feature in its consumer smart glasses, technology that may have been trained by a company that builds surveillance tools for the US military and police departments. After WIRED’s report, Meta deleted the code, and none of this technology is present in the new Meta Glasses. Ankit Brahmbhatt, senior director of Product Management for AI Glasses at Meta, tells WIRED there are “no plans for facial recognition,” as it’s not the focus for what the company is building here.
Meta’s goal with these glasses is to get them onto more faces. “It’s more than just whether they fit—fit and comfort are extremely critical to get right—but it’s also your personal brand,” Bristol says. “It’s a really important decision if we want people to wear them as daily driver glasses.” If more people start wearing these Meta Glasses, that means more people are using Meta AI.
Bristol and Bosworth both lamented that with many of today’s AI tools, you have to supply the context manually, whether by providing a picture, document, or search query. With smart glasses, the AI assistant sees what you’re seeing, and that’s one less burden on your part. “It’s not that the thing isn’t smart enough—sometimes that’s a problem—it’s the amount of work I have to do to get it up to speed,” Bosworth says.
But making smart glasses comfier is just one step. Many people are still concerned about the privacy oversteps made possible by wearable cameras that can discreetly record the user’s surroundings. Bosworth believes such anxieties are akin to what happened when smartphones first put high-quality cameras in our pockets.
“There’s this social norming thing that has to happen,” he says. “The glasses are very popular … that doesn’t mean we aren’t worried about every corner case.”
The new Meta Glasses arrive at a turbulent time for the company’s relationship with its workforce. Bosworth himself sent an internal memo to employees last week promising better communication, stability, and workplace perks to improve morale, which is at an all-time low.
Like it or not, data centers are now intrinsic to our modern lives, supporting not just the AI boom but healthcare, banking, government services, and other essential sectors. Reliable data center operation depends on effective cooling, which is already a major challenge as many methods require huge inputs of water or energy. To make matters worse, new research suggests that one of our cheapest, most efficient cooling strategies could stop working in a warmer world.
The findings, published Monday in the journal Scientific Reports, show that rising temperatures and humidity levels threaten the viability of direct air free cooling, an energy-efficient, waterless technique that pulls outside air in to cool data center servers. Over the past 45 years, weather conditions that limit direct air cooling have become significantly more common, particularly across the tropics and the southeastern United States, according to the study. As the global temperature continues to rise, this problem is only going to get worse.
“We found that periods of time when temperature and humidity exceed recommended operating thresholds for direct air free cooling are becoming more frequent and lasting longer in many regions,” lead author Christina Karamperidou, a professor of atmospheric sciences professor at the University of Hawaii at Mānoa, said in a statement. “This will reduce the availability of air free cooling for a growing number of data centers globally.”
Climate-driven cooling constraints
For direct air free cooling, the American Society of Heating, Refrigerating and Air-Conditioning Engineers recommends keeping the air entering a data center between 64 and 81 degrees Fahrenheit (18 and 27 degrees Celsius), with 10% to 70% relative humidity and a dew point below 59 degrees F (15 degrees C). Air that is hotter and more humid than this won’t cool the servers effectively and could corrode metal components.
To investigate how this cooling method will function in a warmer, wetter world, Karamperidou and her colleagues used a combination of high-resolution hourly weather observations, climate model simulations, and global records of data center locations. With this data, they evaluated how often environmental conditions exceeded recommended operating limits for direct air free cooling over the past 45 years and in future climate scenarios.
The researchers found that the prevalence of weather conditions that limit direct air free cooling has increased significantly in recent decades. Even regions that have only seen modest long-term increases in heat and humidity are experiencing longer daily exceedance events, and the share of data centers exposed to conditions that limit direct air free cooling availability for at least one quarter of the year is rising.
Interestingly, the findings suggest that the hottest, most humid days are intensifying faster than average days, indicating that environmental stress on direct air free cooling systems is become more and more concentrated in rare, highly consequential events.
“From an operational perspective, those worst-day conditions often drive contingency planning, system overrides, redundancy requirements, and reliability decisions,” Karamperidou said. “This suggests that infrastructure planning may need to account not only for average environmental conditions but also for how the most stressful days are changing over time.”
By 2050, the number of hours that exceed temperature and humidity limits for direct air free cooling is protected to increase under high greenhouse gas emissions scenarios, according to the researchers. In most regions globally, the average number of hours per day during which this cooling strategy is constrained increases by more than two hours per day, the findings show.
A troubling feedback loop
While this study focuses on how weather can influence data centers, it’s important to remember that data centers can influence local weather too. These facilities dissipate a lot of heat, and research has shown that they can actually create heat islands within a 6-mile radius of themselves.
Karamperidou and her colleagues did not account for this effect, so the direct air free cooling constraints they identified may be conservative, they write in their report. Still, they emphasize that their findings do not mean that this cooling strategy is necessarily infeasible in warm, humid regions. Rather, the study shows that the window of feasibility for direct air free cooling is narrowing due to climate change.
“Alternative strategies—including indirect evaporative cooling, liquid cooling, and hybrid architectures—can partially offset these constraints, albeit with distinct trade-offs in water use, system complexity, and operational design,” the researchers write.
Indeed, as one of the simplest, cheapest, and most efficient cooling strategies becomes increasingly unreliable, data center operators may be forced to turn to more energy- and water-intensive methods. This, in turn, could put added strain on electric grids and water resources that are themselves strained by climate change. Adapting data centers to a warming world without exacerbating the impacts of rising global temperatures will require innovative solutions.
Like it or not, data centers are now intrinsic to our modern lives, supporting not just the AI boom but healthcare, banking, government services, and other essential sectors. Reliable data center operation depends on effective cooling, which is already a major challenge as many methods require huge inputs of water or energy. To make matters worse, new research suggests that one of our cheapest, most efficient cooling strategies could stop working in a warmer world.
The findings, published Monday in the journal Scientific Reports, show that rising temperatures and humidity levels threaten the viability of direct air free cooling, an energy-efficient, waterless technique that pulls outside air in to cool data center servers. Over the past 45 years, weather conditions that limit direct air cooling have become significantly more common, particularly across the tropics and the southeastern United States, according to the study. As the global temperature continues to rise, this problem is only going to get worse.
“We found that periods of time when temperature and humidity exceed recommended operating thresholds for direct air free cooling are becoming more frequent and lasting longer in many regions,” lead author Christina Karamperidou, a professor of atmospheric sciences professor at the University of Hawaii at Mānoa, said in a statement. “This will reduce the availability of air free cooling for a growing number of data centers globally.”
Climate-driven cooling constraints
For direct air free cooling, the American Society of Heating, Refrigerating and Air-Conditioning Engineers recommends keeping the air entering a data center between 64 and 81 degrees Fahrenheit (18 and 27 degrees Celsius), with 10% to 70% relative humidity and a dew point below 59 degrees F (15 degrees C). Air that is hotter and more humid than this won’t cool the servers effectively and could corrode metal components.
To investigate how this cooling method will function in a warmer, wetter world, Karamperidou and her colleagues used a combination of high-resolution hourly weather observations, climate model simulations, and global records of data center locations. With this data, they evaluated how often environmental conditions exceeded recommended operating limits for direct air free cooling over the past 45 years and in future climate scenarios.
The researchers found that the prevalence of weather conditions that limit direct air free cooling has increased significantly in recent decades. Even regions that have only seen modest long-term increases in heat and humidity are experiencing longer daily exceedance events, and the share of data centers exposed to conditions that limit direct air free cooling availability for at least one quarter of the year is rising.
Interestingly, the findings suggest that the hottest, most humid days are intensifying faster than average days, indicating that environmental stress on direct air free cooling systems is become more and more concentrated in rare, highly consequential events.
“From an operational perspective, those worst-day conditions often drive contingency planning, system overrides, redundancy requirements, and reliability decisions,” Karamperidou said. “This suggests that infrastructure planning may need to account not only for average environmental conditions but also for how the most stressful days are changing over time.”
By 2050, the number of hours that exceed temperature and humidity limits for direct air free cooling is protected to increase under high greenhouse gas emissions scenarios, according to the researchers. In most regions globally, the average number of hours per day during which this cooling strategy is constrained increases by more than two hours per day, the findings show.
A troubling feedback loop
While this study focuses on how weather can influence data centers, it’s important to remember that data centers can influence local weather too. These facilities dissipate a lot of heat, and research has shown that they can actually create heat islands within a 6-mile radius of themselves.
Karamperidou and her colleagues did not account for this effect, so the direct air free cooling constraints they identified may be conservative, they write in their report. Still, they emphasize that their findings do not mean that this cooling strategy is necessarily infeasible in warm, humid regions. Rather, the study shows that the window of feasibility for direct air free cooling is narrowing due to climate change.
“Alternative strategies—including indirect evaporative cooling, liquid cooling, and hybrid architectures—can partially offset these constraints, albeit with distinct trade-offs in water use, system complexity, and operational design,” the researchers write.
Indeed, as one of the simplest, cheapest, and most efficient cooling strategies becomes increasingly unreliable, data center operators may be forced to turn to more energy- and water-intensive methods. This, in turn, could put added strain on electric grids and water resources that are themselves strained by climate change. Adapting data centers to a warming world without exacerbating the impacts of rising global temperatures will require innovative solutions.
#Cheapest #Cool #Data #Centers #Wont #Work #Warmer #WorldAI,data centers,extreme heat,Global warming">The Cheapest Way to Cool Data Centers Won’t Work in a Warmer World
Like it or not, data centers are now intrinsic to our modern lives, supporting not just the AI boom but healthcare, banking, government services, and other essential sectors. Reliable data center operation depends on effective cooling, which is already a major challenge as many methods require huge inputs of water or energy. To make matters worse, new research suggests that one of our cheapest, most efficient cooling strategies could stop working in a warmer world.
The findings, published Monday in the journal Scientific Reports, show that rising temperatures and humidity levels threaten the viability of direct air free cooling, an energy-efficient, waterless technique that pulls outside air in to cool data center servers. Over the past 45 years, weather conditions that limit direct air cooling have become significantly more common, particularly across the tropics and the southeastern United States, according to the study. As the global temperature continues to rise, this problem is only going to get worse.
“We found that periods of time when temperature and humidity exceed recommended operating thresholds for direct air free cooling are becoming more frequent and lasting longer in many regions,” lead author Christina Karamperidou, a professor of atmospheric sciences professor at the University of Hawaii at Mānoa, said in a statement. “This will reduce the availability of air free cooling for a growing number of data centers globally.”
Climate-driven cooling constraints
For direct air free cooling, the American Society of Heating, Refrigerating and Air-Conditioning Engineers recommends keeping the air entering a data center between 64 and 81 degrees Fahrenheit (18 and 27 degrees Celsius), with 10% to 70% relative humidity and a dew point below 59 degrees F (15 degrees C). Air that is hotter and more humid than this won’t cool the servers effectively and could corrode metal components.
To investigate how this cooling method will function in a warmer, wetter world, Karamperidou and her colleagues used a combination of high-resolution hourly weather observations, climate model simulations, and global records of data center locations. With this data, they evaluated how often environmental conditions exceeded recommended operating limits for direct air free cooling over the past 45 years and in future climate scenarios.
The researchers found that the prevalence of weather conditions that limit direct air free cooling has increased significantly in recent decades. Even regions that have only seen modest long-term increases in heat and humidity are experiencing longer daily exceedance events, and the share of data centers exposed to conditions that limit direct air free cooling availability for at least one quarter of the year is rising.
Interestingly, the findings suggest that the hottest, most humid days are intensifying faster than average days, indicating that environmental stress on direct air free cooling systems is become more and more concentrated in rare, highly consequential events.
“From an operational perspective, those worst-day conditions often drive contingency planning, system overrides, redundancy requirements, and reliability decisions,” Karamperidou said. “This suggests that infrastructure planning may need to account not only for average environmental conditions but also for how the most stressful days are changing over time.”
By 2050, the number of hours that exceed temperature and humidity limits for direct air free cooling is protected to increase under high greenhouse gas emissions scenarios, according to the researchers. In most regions globally, the average number of hours per day during which this cooling strategy is constrained increases by more than two hours per day, the findings show.
A troubling feedback loop
While this study focuses on how weather can influence data centers, it’s important to remember that data centers can influence local weather too. These facilities dissipate a lot of heat, and research has shown that they can actually create heat islands within a 6-mile radius of themselves.
Karamperidou and her colleagues did not account for this effect, so the direct air free cooling constraints they identified may be conservative, they write in their report. Still, they emphasize that their findings do not mean that this cooling strategy is necessarily infeasible in warm, humid regions. Rather, the study shows that the window of feasibility for direct air free cooling is narrowing due to climate change.
“Alternative strategies—including indirect evaporative cooling, liquid cooling, and hybrid architectures—can partially offset these constraints, albeit with distinct trade-offs in water use, system complexity, and operational design,” the researchers write.
Indeed, as one of the simplest, cheapest, and most efficient cooling strategies becomes increasingly unreliable, data center operators may be forced to turn to more energy- and water-intensive methods. This, in turn, could put added strain on electric grids and water resources that are themselves strained by climate change. Adapting data centers to a warming world without exacerbating the impacts of rising global temperatures will require innovative solutions.
The end of the biggest World Cup ever is almost here. Following 100 matches, there are just four teams left and four more games to play.
The tournament has been hosted by three countries: Mexico, Canada, and the US. All of those host countries are now out of the running. The final teams are France, Spain, England, and Argentina. Those teams will play two more semifinal games, another game to determine who gets third place and a final match to end it all.
Going into this year’s World Cup, FIFA anticipated that it would be the most watched tournament in the organization’s history. As the tournament moved into the quarterfinals earlier this month, FIFA noted that more than more than 6.2 million people had attended matches in person, “while millions more follow the action across digital platforms, broadcast, and fan experiences in host cities and around the world.”
You can find the full schedule, which defaults to your local time zone, on the FIFA website.
Here’s how to watch the final games.
Semifinals
France vs. Spain, at Dallas Stadium in Arlington, Texas — 3 pm ET on TuesdayJuly 14
England vs. Argentina, at Atlanta Stadium — 3 pm ET on WednesdayJuly 15
Third Place Playoff
The two losing teams of the semifinal matches will face off for the title of third place at 5 pm ET on Saturday, July 18, in the Miami Stadium in Miami, Florida.
Final
The World Cup final game is at 3 pm ET on Sunday, July 19, in the New York/New Jersey Stadium.
The game will also feature the first-ever Super Bowl–style halftime show in World Cup history, with performances from Justin Bieber, Madonna, Shakira, BTS, and Gustavo Dudamel. As the name implies, that will likely land right in the middle of the broadcast, so aim to watch somewhere around 4 pm ET on July 19.
Where to Stream
If you have satellite TV or cable service, you can watch the final kickoffs live on TV via Fox Sports in the US. The games are also available on the FoxOne streaming service for $20 per month.
FIFA has partnered with YouTube as its “preferred partner” for streaming the games. You’ll need YouTube TV’s sports plan, which is currently $55 per month. Other paid options include Fubo ($46 per month) and Hulu’s live sports option ($90 per month).
This World Cup has been huge, competition-wise, as it is the first to include 48 teams in the tournament instead of the 32 for past World Cups. Given the increased number of teams, the structure for how the competition played out was different from past World Cups. Countries were first sorted into groups (labeled with letters A–L) and played out games in the First Stage within those groups.
Winners of those matches went on to duke it out in the stage called the Round of 32, then got whittled down in a Round of 16. After that, the winners moved on to the quarterfinals, which wrapped up last weekend.
#Watch #World #Cup #Semifinals #Finalssports,football,how-to,world cup 2026,soccer">
The end of the biggest World Cup ever is almost here. Following 100 matches, there are just four teams left and four more games to play.
The tournament has been hosted by three countries: Mexico, Canada, and the US. All of those host countries are now out of the running. The final teams are France, Spain, England, and Argentina. Those teams will play two more semifinal games, another game to determine who gets third place and a final match to end it all.
Going into this year’s World Cup, FIFA anticipated that it would be the most watched tournament in the organization’s history. As the tournament moved into the quarterfinals earlier this month, FIFA noted that more than more than 6.2 million people had attended matches in person, “while millions more follow the action across digital platforms, broadcast, and fan experiences in host cities and around the world.”
You can find the full schedule, which defaults to your local time zone, on the FIFA website.
Here’s how to watch the final games.
Semifinals
France vs. Spain, at Dallas Stadium in Arlington, Texas — 3 pm ET on TuesdayJuly 14
England vs. Argentina, at Atlanta Stadium — 3 pm ET on WednesdayJuly 15
Third Place Playoff
The two losing teams of the semifinal matches will face off for the title of third place at 5 pm ET on Saturday, July 18, in the Miami Stadium in Miami, Florida.
Final
The World Cup final game is at 3 pm ET on Sunday, July 19, in the New York/New Jersey Stadium.
The game will also feature the first-ever Super Bowl–style halftime show in World Cup history, with performances from Justin Bieber, Madonna, Shakira, BTS, and Gustavo Dudamel. As the name implies, that will likely land right in the middle of the broadcast, so aim to watch somewhere around 4 pm ET on July 19.
Where to Stream
If you have satellite TV or cable service, you can watch the final kickoffs live on TV via Fox Sports in the US. The games are also available on the FoxOne streaming service for $20 per month.
FIFA has partnered with YouTube as its “preferred partner” for streaming the games. You’ll need YouTube TV’s sports plan, which is currently $55 per month. Other paid options include Fubo ($46 per month) and Hulu’s live sports option ($90 per month).
This World Cup has been huge, competition-wise, as it is the first to include 48 teams in the tournament instead of the 32 for past World Cups. Given the increased number of teams, the structure for how the competition played out was different from past World Cups. Countries were first sorted into groups (labeled with letters A–L) and played out games in the First Stage within those groups.
Winners of those matches went on to duke it out in the stage called the Round of 32, then got whittled down in a Round of 16. After that, the winners moved on to the quarterfinals, which wrapped up last weekend.
#Watch #World #Cup #Semifinals #Finalssports,football,how-to,world cup 2026,soccer">How to Watch the 2026 World Cup Semifinals and Finals
The end of the biggest World Cup ever is almost here. Following 100 matches, there are just four teams left and four more games to play.
The tournament has been hosted by three countries: Mexico, Canada, and the US. All of those host countries are now out of the running. The final teams are France, Spain, England, and Argentina. Those teams will play two more semifinal games, another game to determine who gets third place and a final match to end it all.
Going into this year’s World Cup, FIFA anticipated that it would be the most watched tournament in the organization’s history. As the tournament moved into the quarterfinals earlier this month, FIFA noted that more than more than 6.2 million people had attended matches in person, “while millions more follow the action across digital platforms, broadcast, and fan experiences in host cities and around the world.”
You can find the full schedule, which defaults to your local time zone, on the FIFA website.
Here’s how to watch the final games.
Semifinals
France vs. Spain, at Dallas Stadium in Arlington, Texas — 3 pm ET on TuesdayJuly 14
England vs. Argentina, at Atlanta Stadium — 3 pm ET on WednesdayJuly 15
Third Place Playoff
The two losing teams of the semifinal matches will face off for the title of third place at 5 pm ET on Saturday, July 18, in the Miami Stadium in Miami, Florida.
Final
The World Cup final game is at 3 pm ET on Sunday, July 19, in the New York/New Jersey Stadium.
The game will also feature the first-ever Super Bowl–style halftime show in World Cup history, with performances from Justin Bieber, Madonna, Shakira, BTS, and Gustavo Dudamel. As the name implies, that will likely land right in the middle of the broadcast, so aim to watch somewhere around 4 pm ET on July 19.
Where to Stream
If you have satellite TV or cable service, you can watch the final kickoffs live on TV via Fox Sports in the US. The games are also available on the FoxOne streaming service for $20 per month.
FIFA has partnered with YouTube as its “preferred partner” for streaming the games. You’ll need YouTube TV’s sports plan, which is currently $55 per month. Other paid options include Fubo ($46 per month) and Hulu’s live sports option ($90 per month).
This World Cup has been huge, competition-wise, as it is the first to include 48 teams in the tournament instead of the 32 for past World Cups. Given the increased number of teams, the structure for how the competition played out was different from past World Cups. Countries were first sorted into groups (labeled with letters A–L) and played out games in the First Stage within those groups.
Winners of those matches went on to duke it out in the stage called the Round of 32, then got whittled down in a Round of 16. After that, the winners moved on to the quarterfinals, which wrapped up last weekend.
#Watch #World #Cup #Semifinals #Finalssports,football,how-to,world cup 2026,soccer
Luckily, not every back-to-school tech upgrade has to hurt. T-Mobile’s latest offers are helping students and families save on the stuff they’re most likely shopping for, from free Galaxy S26 and iPhone 17 deals to tablets and home internet.
Before you start picking your new phone color, there’s a catch worth knowing about. These T-Mobile deals do come with a few strings attached. Depending on the offer, you may need to add a new line, pick a qualifying plan, or trade in an eligible phone to get the advertised price. Some savings are also delivered through monthly bill credits.
Best phone deal for students
If you were already planning to upgrade your phone before heading back to school, this is one of T-Mobile’s biggest offers. New customers who switch their number can get a Samsung Galaxy S26 or iPhone 17 for $0 with qualifying plans, with the discount applied through 24 monthly bill credits.
You’ll need a qualifying T-Mobile plan, and depending on the offer, you may need to switch your number to get the full discount. If you cancel service before the credits finish, you’ll be responsible for the remaining device balance.
Best budget phone deal for students
Metro by T-Mobile is offering the iPhone 16e for $99.99 upfront when you bring your existing number to its $50 per month AutoPay plan. After three months of service, you’ll also get a $100 virtual prepaid Mastercard, effectively covering the phone’s cost.
The iPhone 16e is Apple’s more affordable iPhone option, giving students access to features like Apple Intelligence support, a 48-megapixel Fusion camera, and a familiar iOS experience without jumping up to the price of a flagship model.
Best tablet deal for students
A tablet can be a pretty handy school sidekick, whether you’re downloading textbooks, taking notes, or giving your laptop a break. Right now, T-Mobile is giving the Samsung Galaxy Tab A11+ 5G (128GB) away with a new qualifying tablet line.
Mashable Deals
By signing up, you agree to receive recurring automated SMS marketing messages from Mashable Deals at the number provided. Msg and data rates may apply. Up to 2 messages/day. Reply STOP to opt out, HELP for help. Consent is not a condition of purchase. See our Privacy Policy and Terms of Use.
The catch? The $289.99 price is covered through 24 monthly bill credits, so you’ll want to stick with the plan for the full promo period to get the complete discount.
Best home internet deal for students
Moving off campus usually means adding one more thing to your budget: WiFi. T-Mobile 5G Home Internet is down to $35 per month when bundled with a qualifying T-Mobile phone plan, saving you $15 per month.
New customers can also get a free month of service plus up to $200 back via virtual prepaid card, making it a great option for students moving into an apartment or anyone who wants simple setup without a long-term price surprise. Eligible plans come with a five-year price guarantee, so your monthly rate won’t change during that period (excluding certain fees and upgrades).
Luckily, not every back-to-school tech upgrade has to hurt. T-Mobile’s latest offers are helping students and families save on the stuff they’re most likely shopping for, from free Galaxy S26 and iPhone 17 deals to tablets and home internet.
Before you start picking your new phone color, there’s a catch worth knowing about. These T-Mobile deals do come with a few strings attached. Depending on the offer, you may need to add a new line, pick a qualifying plan, or trade in an eligible phone to get the advertised price. Some savings are also delivered through monthly bill credits.
Best phone deal for students
If you were already planning to upgrade your phone before heading back to school, this is one of T-Mobile’s biggest offers. New customers who switch their number can get a Samsung Galaxy S26 or iPhone 17 for $0 with qualifying plans, with the discount applied through 24 monthly bill credits.
You’ll need a qualifying T-Mobile plan, and depending on the offer, you may need to switch your number to get the full discount. If you cancel service before the credits finish, you’ll be responsible for the remaining device balance.
Best budget phone deal for students
Metro by T-Mobile is offering the iPhone 16e for $99.99 upfront when you bring your existing number to its $50 per month AutoPay plan. After three months of service, you’ll also get a $100 virtual prepaid Mastercard, effectively covering the phone’s cost.
The iPhone 16e is Apple’s more affordable iPhone option, giving students access to features like Apple Intelligence support, a 48-megapixel Fusion camera, and a familiar iOS experience without jumping up to the price of a flagship model.
Best tablet deal for students
A tablet can be a pretty handy school sidekick, whether you’re downloading textbooks, taking notes, or giving your laptop a break. Right now, T-Mobile is giving the Samsung Galaxy Tab A11+ 5G (128GB) away with a new qualifying tablet line.
Mashable Deals
By signing up, you agree to receive recurring automated SMS marketing messages from Mashable Deals at the number provided. Msg and data rates may apply. Up to 2 messages/day. Reply STOP to opt out, HELP for help. Consent is not a condition of purchase. See our Privacy Policy and Terms of Use.
The catch? The $289.99 price is covered through 24 monthly bill credits, so you’ll want to stick with the plan for the full promo period to get the complete discount.
Best home internet deal for students
Moving off campus usually means adding one more thing to your budget: WiFi. T-Mobile 5G Home Internet is down to $35 per month when bundled with a qualifying T-Mobile phone plan, saving you $15 per month.
New customers can also get a free month of service plus up to $200 back via virtual prepaid card, making it a great option for students moving into an apartment or anyone who wants simple setup without a long-term price surprise. Eligible plans come with a five-year price guarantee, so your monthly rate won’t change during that period (excluding certain fees and upgrades).
#TMobile #backtoschool #deals #Free #Galaxy #S26 #iPhone">Best T-Mobile back-to-school deals: Free Galaxy S26, iPhone 17, and more
Back-to-school shopping is already expensive, and this year, tech upgrades aren’t getting any cheaper. Between the ongoing memory crunch (aka RAMageddon), higher hardware costs, and recent Apple price hikes on some products, finding a good deal on the gadgets students need matters more than ever.
Luckily, not every back-to-school tech upgrade has to hurt. T-Mobile’s latest offers are helping students and families save on the stuff they’re most likely shopping for, from free Galaxy S26 and iPhone 17 deals to tablets and home internet.
Before you start picking your new phone color, there’s a catch worth knowing about. These T-Mobile deals do come with a few strings attached. Depending on the offer, you may need to add a new line, pick a qualifying plan, or trade in an eligible phone to get the advertised price. Some savings are also delivered through monthly bill credits.
Best phone deal for students
If you were already planning to upgrade your phone before heading back to school, this is one of T-Mobile’s biggest offers. New customers who switch their number can get a Samsung Galaxy S26 or iPhone 17 for $0 with qualifying plans, with the discount applied through 24 monthly bill credits.
You’ll need a qualifying T-Mobile plan, and depending on the offer, you may need to switch your number to get the full discount. If you cancel service before the credits finish, you’ll be responsible for the remaining device balance.
Best budget phone deal for students
Metro by T-Mobile is offering the iPhone 16e for $99.99 upfront when you bring your existing number to its $50 per month AutoPay plan. After three months of service, you’ll also get a $100 virtual prepaid Mastercard, effectively covering the phone’s cost.
The iPhone 16e is Apple’s more affordable iPhone option, giving students access to features like Apple Intelligence support, a 48-megapixel Fusion camera, and a familiar iOS experience without jumping up to the price of a flagship model.
Best tablet deal for students
A tablet can be a pretty handy school sidekick, whether you’re downloading textbooks, taking notes, or giving your laptop a break. Right now, T-Mobile is giving the Samsung Galaxy Tab A11+ 5G (128GB) away with a new qualifying tablet line.
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The catch? The $289.99 price is covered through 24 monthly bill credits, so you’ll want to stick with the plan for the full promo period to get the complete discount.
Best home internet deal for students
Moving off campus usually means adding one more thing to your budget: WiFi. T-Mobile 5G Home Internet is down to $35 per month when bundled with a qualifying T-Mobile phone plan, saving you $15 per month.
New customers can also get a free month of service plus up to $200 back via virtual prepaid card, making it a great option for students moving into an apartment or anyone who wants simple setup without a long-term price surprise. Eligible plans come with a five-year price guarantee, so your monthly rate won’t change during that period (excluding certain fees and upgrades).
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