The latest Galaxy S26 lineup from Samsung has been officially unveiled, and it has been confirmed that none of the models, including the Ultra, come with built-in Qi2 magnets for convenient MagSafe-style charging. This decision by Samsung contrasts with Google’s Pixel 10, which does feature magnetic charging.
Many were expecting Samsung to follow suit with the magnetic charging trend, so I sat down with Kadesh Beckford, Senior Product Manager at Samsung UK, to understand the rationale behind this choice. Beckford explained that Samsung prioritized making the devices 0.3mm thinner while enhancing durability, incorporating larger vapor cooling chambers, and introducing new Privacy Display technology, among other features, over integrating magnetic charging.
Beckford emphasized that Samsung’s focus was on meaningful innovation that would provide real-time benefits to users. He highlighted how the Galaxy Z Fold 7 benefited from the research and development efforts, resulting in a thinner and lighter foldable device. The Galaxy S26 Ultra, in particular, saw improvements in the vapor cooling chamber system and overall design enhancements instead of including magnets for charging convenience.
While some users may miss the magnetic charging feature, Beckford pointed out that using separate Qi2 cases could provide a solution for those who prefer this functionality. He also hinted that Samsung may reconsider including built-in magnets in the Galaxy S27 range in the future.
The decision to prioritize other features over magnetic charging may disappoint some fans, but Samsung has focused on delivering a sleeker design, enhanced cooling system, new display technology, and the inclusion of the S Pen in the Galaxy S26 series. It remains to be seen whether these trade-offs were worth it once the phones are reviewed by consumers.
Looking ahead, Samsung may introduce magnetic charging in future models, but for now, the Galaxy S26 lineup stands out for its unique features and design choices. Beckford also mentioned that there will be no Galaxy S26 Edge model this year, adding to the changes in Samsung’s flagship range.
For more details on the Galaxy S26 lineup, check out our ultimate guide. If you’re considering the S26 Ultra, our hands-on review could provide valuable insights. Additionally, if you’re torn between the S26 Ultra and the Pixel 10 Pro XL, our comparison review might help you make an informed decision.
Overall, Samsung’s decision to prioritize other enhancements over magnetic charging showcases the brand’s commitment to innovation and user experience in its latest flagship devices. The world of technology is constantly evolving, with new innovations being introduced every day. One of the most exciting developments in recent years is the rise of artificial intelligence (AI). AI technology has the potential to revolutionize our lives in ways we never thought possible, and the possibilities are endless.
One of the most promising applications of AI is in the field of healthcare. AI has the ability to analyze vast amounts of data quickly and accurately, which can help doctors make more informed decisions about patient care. For example, AI can be used to analyze medical images and detect early signs of diseases such as cancer, allowing for earlier diagnosis and treatment.
AI can also be used to improve patient outcomes by predicting which treatments will be most effective for each individual. By analyzing a patient’s medical history, genetic information, and other data, AI can help doctors tailor treatment plans to each patient’s unique needs.
In addition to improving patient care, AI can also help healthcare providers streamline their operations and reduce costs. For example, AI-powered chatbots can be used to schedule appointments, answer patient questions, and provide information on common medical conditions. This can free up time for healthcare providers to focus on more complex tasks, ultimately improving the quality of care for patients.
AI is also being used to develop new drugs and treatments more quickly and efficiently. By analyzing vast amounts of data on drug interactions, genetic factors, and disease mechanisms, AI can help researchers identify potential drug candidates and predict how they will perform in clinical trials. This can dramatically accelerate the drug development process, bringing new treatments to market faster and potentially saving lives.
Overall, the potential of AI in healthcare is immense. From improving patient care and outcomes to streamlining operations and accelerating drug development, AI has the power to transform the healthcare industry in ways we never thought possible. As technology continues to advance, we can expect to see even more exciting developments in the field of AI and healthcare in the years to come.
