Class 11 Student From Kanpur On NASA's Hall Of Fame After Finding Major Flaw In The Website
Last Updated:
A student of Saraswati Vidya Mandir Inter College, Damodar Nagar, NASA has honored 16-year-old Yuvraj Gupta with a letter of appreciation.
A class 11 student from Kanpur, Yuvraj Gupta has been honored by NASA's Hall of Fame after identifying a major security flaw on its website. The flaw he discovered could have allowed anyone to send fake emails from NASA's official domain, something even seasoned cybersecurity professionals had overlooked.
The 16-year-old found the vulnerability while participating in NASA's bug bounty programme, which invites cybersecurity enthusiasts to identify and report weaknesses in their systems. A student of Saraswati Vidya Mandir Inter College, Damodar Nagar, NASA has honored him with a letter of appreciation.
Yuvraj's journey in cybersecurity began in Class 6, driven by his curiosity to hack a Wi-Fi password. Using YouTube tutorials, online courses, and books, he taught himself ethical hacking. In 2024, his skills caught the eye of a cybersecurity firm founder on social media, which led to an opportunity to train police officers across India in preventing cybercrime.
Despite facing financial hardships, Yuvraj's family supported him as best as they could. With the help of his father's savings and his sister's scholarship, he finally managed to buy a laptop to enhance his skills.
Even though Yuvraj has achieved global recognition, he has yet to receive any support from the government. He hopes that authorities will acknowledge and encourage young talent like him. He has identified bugs on the websites of the Odisha and Maharashtra governments but is still awaiting a response.
A native of Naubasta, Kanpur, he lives with his parents and two sisters.
Earlier in Februrary, NASA had honored Daksh Malik, a class 9 student, for his extraordinary achievement in the field of astronomy. He detected a Main Belt Asteroid, designated '2023 OG40.' As part of the International Asteroid Discovery Project (IADP), Daksh was one of the few young citizen scientists to detect asteroids using real astronomical data.
First Published:
May 27, 2025, 15:36 IST
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Time of India
27 minutes ago
- Time of India
Earth shook every 90 seconds for 9 days in 2023; scientists finally reveal the shocking reason
Earth shook every 90 seconds for 9 days in 2023 In September 2023, seismic monitoring stations around the world began to register an eerie, rhythmic signal. Every 90 seconds, the Earth appeared to pulse—faintly but persistently. The phenomenon lasted for nine days and returned a month later, leaving scientists puzzled. There was no accompanying earthquake, volcanic eruption, or explosion to explain the tremors. The source of the mystery was traced to the remote Dickson Fjord in East Greenland. At the time, theories ranged from submarine volcanic activity to secret military tests. Now, almost two years later, researchers from the University of Oxford have offered the first concrete explanation using next-generation satellite and machine learning technologies. What they uncovered reveals not only the cause of the pulses but also a broader warning about the climate crisis unfolding silently in the world's most remote corners. The Earth shook without warning: 2023's 90-second Arctic pulse For nine consecutive days in September 2023, and again in October, seismic stations recorded signals repeating every 90 seconds. These pulses were subtle—far weaker than earthquakes—but unusual because of their precise regularity and global reach. The signals came from the Arctic, specifically from the Dickson Fjord in East Greenland. The incident baffled geophysicists and prompted international investigations. With no explosion, tectonic activity, or obvious surface disturbance detected, the mystery deepened. Seiches vs. Tsunamis: Understanding the difference Initially, some suspected a tsunami might be responsible. But experts soon distinguished the phenomenon as a seiche—a lesser-known but powerful water oscillation. Tsunami: Caused by abrupt displacement of water due to earthquakes, volcanic activity, or landslides. It travels as a single massive wave. Seiche : Occurs when water in an enclosed space like a lake or fjord repeatedly sloshes back and forth, creating standing waves. These are often triggered by landslides, strong winds, or seismic activity. In this case, scientists confirmed the Dickson Fjord had experienced seiches—giant oscillating waves that created rhythmic seismic pulses without causing surface devastation. What caused the Greenland Seiches Researchers now confirm that the seismic pulses were the result of two massive glacier-induced rock and ice avalanches. These avalanches thundered into Dickson Fjord, displacing enormous volumes of water and generating tsunami-like waves with an initial height of up to 7.9 meters. Due to the fjord's narrow and enclosed topography, the waves couldn't escape and instead bounced back and forth like water in a bathtub. These oscillations—seiches—persisted for days, producing low-frequency seismic energy detectable across continents. How NASA's SWOT satellite uncovered Greenland's hidden waves The game-changer was data from NASA and the French space agency CNES's Surface Water and Ocean Topography (SWOT) satellite, launched in December 2022. The satellite's Ka-band Radar Interferometer (KaRIn) allowed researchers to scan a 30-mile-wide swath of the ocean surface in high resolution—something no previous satellite system could do. Oxford scientists used SWOT to map subtle elevation shifts in the fjord's surface after the event. They observed slopes of up to two meters across the channel that reversed direction over time—clear signatures of standing wave motion. Supporting evidence: Machine learning and seismic models To fill in gaps in satellite data, scientists employed: Machine learning to reconstruct wave behavior over time. Crustal deformation data from sensors thousands of kilometers away. Weather pattern analysis, ruling out wind and tides as causes. This multidisciplinary approach confirmed that the rhythmic seismic pulses came from seiche-driven energy trapped in the fjord. Climate change's fingerprints are all over the event The most alarming takeaway from the study is the role of climate change. Warming Arctic temperatures are rapidly melting Greenland's glaciers, weakening adjacent slopes and increasing the frequency of catastrophic landslides. As lead researcher Thomas Monahan stated: 'Climate change is giving rise to new, unseen extremes. These changes are happening fastest in remote areas like the Arctic, where our ability to monitor them has historically been limited.' The study highlights how climate-driven geological events can have global seismic effects—often silently and without warning. Why it matters: A new era of Earth monitoring The incident and its resolution mark a turning point in Earth observation. Co-author Professor Thomas Adcock emphasized: 'This is a perfect example of how next-generation satellite data and advanced modeling can resolve phenomena that have long been mysteries. We're entering an era where we can better track tsunamis, storm surges, and even rogue waves.' Moreover, a Danish military vessel patrolling the fjord three days after the first pulse observed nothing out of the ordinary—underscoring how even massive events can leave little trace without advanced monitoring systems.
Economic Times
an hour ago
- Economic Times
How will Earth take its last breath? New research gives a detailed description of how life on planet will meet its end
A new study, employing NASA's planetary modeling, predicts Earth's oxygen will vanish in roughly one billion years, much sooner than previously thought. Led by Toho University, the research highlights the sun's aging process as a key factor, causing increased water evaporation, rising temperatures, and a failing carbon cycle. Tired of too many ads? Remove Ads What has the research revealed? Tired of too many ads? Remove Ads Researchers shorten Earth's lifeline A groundbreaking study by researchers at Toho University, using NASA's advanced planetary modeling, has predicted a major shift in Earth's atmosphere that could make life as we know it in Nature Geoscience, the research suggests that Earth's oxygen could vanish in about one billion years—shedding new light on the long-term evolution of our planet's team ran 400,000 simulations to model how Earth's atmosphere might change as the sun grows hotter with age. While the predicted changes lie far in the future, the findings offer critical insights into planetary science and the eventual fate of Earth's study titled "The Future Lifespan of Earth's Oxygenated Atmosphere" explores a future in which oxygen becomes increasingly scarce due to natural changes in the planet's systems. Led by Kazumi Ozaki, an assistant professor at Toho University in Tokyo, the research examines the geological and astronomical factors influencing long-term shifts in Earth's role of the Sun One of the core factors leading to oxygen depletion is the sun's inevitable aging process. As the sun ages, it will gradually become hotter and brighter. This increase in solar radiation will significantly impact Earth's climate, leading to a series of irreversible changes:As temperatures rise, Earth's water bodies will evaporate more rapidly, increasing atmospheric water vapor levels. This warming will also cause surface temperatures to escalate, gradually creating conditions unsuitable for sustaining life. The heat will disrupt the carbon cycle—a crucial process that regulates atmospheric carbon dioxide—weakening its ability to maintain balance. As a result, plant life will begin to die off, stopping the production of oxygen through photosynthesis. Over time, these cascading effects will lead to a dramatic loss of oxygen in Earth's atmosphere, rendering the planet increasingly research revealed that as the carbon cycle deteriorates, the atmosphere will revert to a composition reminiscent of early Earth, characterized by high levels of methane and low oxygen. This transformation mirrors the state before the Great Oxidation Event—a period when Earth's atmosphere became rich in oxygen due to the proliferation of photosynthetic scientific models suggested that Earth's biosphere would last up to two billion years, primarily due to overheating and the eventual depletion of CO₂ necessary for photosynthesis. However, this new research narrows the timeframe, suggesting a much earlier end to oxygen Ozaki emphasized that while the eventual demise of Earth's biosphere was acknowledged, pinpointing the timing and the precise process of deoxygenation remained elusive. This study, using advanced supercomputer simulations, provides a clearer understanding by simulating numerous potential scenarios.
Time of India
an hour ago
- Time of India
Indian astronaut Shubhanshu Shukla's launch, arrival details at ISS out by NASA; Check how to stream, date, time, other key details here
NASA , Axiom Space, and SpaceX are targeting 8:22 a.m. EDT, Tuesday, June 10, for launch of the fourth private astronaut mission to the International Space Station , Axiom Mission 4 , according to a recent press statement of US space agency. For India, 8:22 a.m. EDT translates to 5:52 pm IST. The mission will lift off from Launch Complex 39A at NASA's Kennedy Space Center in Florida. The crew will travel to the orbiting laboratory on a new SpaceX Dragon spacecraft after launching on the company's Falcon 9 rocket. The targeted docking time is approximately 12:30 p.m., Wednesday, June 11. by Taboola by Taboola Sponsored Links Sponsored Links Promoted Links Promoted Links You May Like 2024-2025 Models: Small SUVs Are Turning Heads (Take A Look) FrequentSearches | Search Ads Learn More Undo How to stream the launch and arrival activities? NASA will stream live coverage of launch and arrival activities on NASA+. What is the role of Shukla? Peggy Whitson, former NASA astronaut and director of human spaceflight at Axiom Space, will command the commercial mission, while ISRO ( Indian Space Research Organisation ) astronaut Shubhanshu Shukla will serve as pilot. The two mission specialists are ESA (European Space Agency) project astronaut Sławosz Uznański-Wiśniewski of Poland and Tibor Kapu of Hungary. Live Events As part of a collaboration between NASA and ISRO, Axiom Mission 4 delivers on a commitment highlighted by President Trump and Indian Prime Minister Narendra Modi to send the first ISRO astronaut to the station. The space agencies are participating in five joint science investigations and two in-orbit science, technology, engineering, and mathematics demonstrations. NASA and ISRO have a long-standing relationship built on a shared vision to advance scientific knowledge and expand space collaboration. The private mission also carries the first astronauts from Poland and Hungary to stay aboard the space station. NASA's mission coverage is as follows (all times Eastern and subject to change based on real-time operations): Check full schedule Tuesday, June 10 6:15 a.m. – Axiom Space and SpaceX launch coverage begins. 7:25 a.m. – NASA joins the launch coverage on NASA+. 8:22 a.m. – Launch NASA will end coverage following orbital insertion, which is approximately 15 minutes after launch. As it is a commercial launch, NASA will not provide a clean launch feed on its channels. Wednesday, June 11 10:30 a.m. – Arrival coverage begins on NASA+, Axiom Space, and SpaceX channels. 12:30 p.m. – Targeted docking to the space-facing port of the station's Harmony module. Arrival coverage will continue through hatch opening and welcome remarks. Astronaut Shubhanshu Shukla blasts off into space next week as the first Indian to join the International Space Station (ISS), bearing with him New Delhi's dreams of its own manned space flight. An airforce fighter pilot, 39-year-old Shukla is joining a four-crew mission launching from the United States with private company Axiom Space, aboard a SpaceX Crew Dragon capsule. He will become the first Indian to join the ISS, and only the second ever in orbit -- an achievement that the world's most populous nation hopes will be a stepping stone for its own human flight.
