New ALIEN: EARTH Promo Spot Teases Xenomorph Terror — GeekTyrant
This series explores the fascinating concept of a human mind being transferred into a Synthetic body. That character is Wendy, who's played by Sydney Chandler. This new footage hints that this new technology comes with consequences.
The series is set in the year 2120, the Earth is governed by five corporations: Prodigy, Weyland-Yutani, Lynch, Dynamic, and Threshold. In this Corporate Era, cyborgs (humans with both biological and artificial parts) and synthetics (humanoid robots with artificial intelligence) exist alongside humans.
But the game is changed when the wunderkind Founder and CEO of Prodigy Corporation unlocks a new technological advancement: hybrids (humanoid robots infused with human consciousness).
When the mysterious deep space research vessel USCSS Maginot crash-lands on Earth, 'Wendy' and a ragtag group of tactical soldiers make a fateful discovery that puts them face-to-face with the planet's greatest threat.
According to previously released details, the series will feature five different monsters, making this easily one of the most creature-heavy entries in the franchise's history.
The story centers on Wendy, a character played by Sydney Chandler. Wendy's a new kind of character for the Alien universe as she's a human-robot hybrid with 'a child's brain in a bot's body.' She seems to lead a group of synthetic soliders against the alien threat.
Hawley explained: 'Sydney's character is someone who's trying to figure out what her role is in this world and, on some level, the age-old question of, does humanity deserve to survive?'
The series also stars Timothy Olyphant as Kirsh, Alex Lawther as Hermit, and Babou Ceesay as Morrow, along with Essie Davis, Adrian Edmondson, David Rysdahl, Lily Newmark, and many more.
FX's Alien: Earth is executive-produced by Hawley, alongside franchise legend Ridley Scott, as well as David W. Zucker, Joseph Iberti, Dana Gonzales, and Clayton Krueger.
Alien: Earth premieres August 12 on FX and Hulu.
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Yahoo
an hour ago
- Yahoo
Fuzzy, Large, And Very Old: Everything We Know About Interstellar Comet 3I/ATLAS
We've only known about its existence for a few short weeks, and already astronomers have been able to learn a lot about the mysterious interstellar comet 3I/ATLAS. The object was detected on 1 July 2025, and it made a big splash. Scientists rapidly discovered that it came from outside the Solar System – just the third known object to have done so. Astronomers thronged to study, track, and categorize it. Thanks to their efforts, we now have a pretty detailed – but still evolving – profile of the unusual comet. Initial observations suggest that it is very different from the other two interstellar objects, 1I/'Oumuamua, which appeared in 2017, and 2I/Borisov, discovered in 2019. Related: Astronomers Have Traced Our New Interstellar Comet's Origin, And It's a First Here's what we know. Please note that all papers are, at time of writing, preprints that are awaiting peer review. Trajectory Ongoing observations of 3I/ATLAS have enabled astronomers to chart its future path through the Solar System. It was discovered when it was at a distance of 4.5 astronomical units from the Sun (one astronomical unit is the distance between Earth and the Sun). That placed it inside the orbit of Jupiter. It's traveling at just under 60 kilometers (37 miles) per second, but that will speed up as the comet approaches the Sun. 1I/'Oumumua was traveling at 26 kilometers per second, and 2I/Borisov at 32. The closest 3I/ATLAS will come to the Sun is around 1.36 astronomical units, inside the orbit of Mars, on 29 October 2025. Its closest approach to Earth will be in December 2025, when it will come to a distance of 1.8 astronomical units. Origin The speed and trajectory of 3I/ATLAS suggest that it comes from the thick disk of the Milky Way, the puffy region around the thin disk wherein just 15 percent of the galaxy's stellar mass resides. This part of the galaxy is relatively sparse, and most of the stars in it are very old. Age The comet's origin provides clues about its age. Since it seems to hail from a region of mostly elderly objects, it stands to reason that 3I/ATLAS is likewise quite venerable. This is supported by a separate paper that has analyzed the speed and velocity of the comet to try to calculate its age. It is traveling much faster than the two previous interstellar objects, 1I/'Oumuamua and 2I/Borisov, suggesting that it is older than them too. Future observations will help narrow down the object's age, but this analysis places it somewhere between 3 and 11 billion years old. The Universe is 13.8 billion years old, and the Sun is 4.6 billion. 3I/ATLAS is unlikely to be at the upper end of the age range, but it's still probably older than the Solar System. "This is an object from a part of the galaxy we've never seen up close before," says astrophysicist Chris Lintott of the University of Oxford in the UK, co-author of one of the papers that has emerged. "We think there's a two-thirds chance this comet is older than the Solar System, and that it's been drifting through interstellar space ever since." Appearance We don't know much about the appearance of 3I/ATLAS yet, because it is very small and still quite far away, but initial observations suggest that it is quite large compared to 1I/'Oumuamua and 2I/Borisov – about 10 kilometers across, compared to up to 400 meters long (around 1,300 feet) for 1I/'Oumuamua and 975 meters for 2I/Borisov. The spectrum of light reflected off the comet has been measured by a number of independent teams, all arriving at the same findings, suggesting that the object has either a complex mix of grain sizes, a different composition from those of Solar System comets, or a combo of both explanations. New images taken with the Gemini North telescope reveal the comet's puffy coma, a sort of 'atmosphere' of dust and gas that surrounds the comet. As it draws closer to the Sun, scientists expect its activity to pick up, resulting in cometary outgassing. "3I/ATLAS likely contains ices, especially below the surface, and those ices may start to activate as it nears the Sun," says astronomer Darryl Seligman of Michigan State University in the US. "But until we detect specific gas emissions, like H2O, CO or CO2, we can't say for sure what kinds of ice or how much there is." What next? Astronomers are going to continue keeping a close eye on 3I/ATLAS. Since it is so much larger than either of the previous two interstellar visitors, it presents a much better observation target, and its projected origin and age means it represents a rare opportunity to study parts of the galaxy in time and space that are usually out of reach. Its appearance has another implication, too. It suggests that interstellar visitors are relatively common to the Solar System – which is all the more reason to be excited about the forthcoming ESA/JAXA Comet Interceptor mission, designed to visit comets and study them up close, currently slated for a 2029 launch. Related News Sold: Largest Mars Rock Exceeds Auction Expectations One of 2025's Best Meteor Showers Is Upon Us: Here's How to Watch Meteorite Discovery Could Fill Billion Year Gap in Moon History Solve the daily Crossword
Yahoo
8 hours ago
- Yahoo
Colossal eruption carves 250,000-mile-long 'canyon of fire' into the sun (video)
When you buy through links on our articles, Future and its syndication partners may earn a commission. On July 15, a colossal filament erupted from the sun's northeastern limb, dramatically reshaping part of our star's surface, albeit briefly, and unleashing a coronal mass ejection (CME) into space. The outburst was so powerful that it carved a glowing trench of hot plasma more than 250,000 miles (about 400,000 kilometers) long, roughly the distance from Earth to the moon. The explosive event was captured in stunning detail by NASA's Solar Dynamics Observatory (SDO), showing the filament unraveling as solar material arcs and cascades through the sun's atmosphere. As the filament collapsed, it left behind what some call a "canyon of fire," with towering walls estimated to rise at least 12,400 miles (20,000 km) high, according to These glowing rifts form when the sun's magnetic field lines violently snap and realign after an eruption, leaving behind a searing hot trench of plasma that traces the reshaping magnetic field, according to NASA. This fiery chasm isn't just a visual spectacle. Filaments are cooler, dense ribbons of solar plasma that can hang suspended above the sun's surface by magnetic fields, according to NOAA. When these become unstable, they can erupt dramatically, sometimes launching coronal mass ejections (CMEs) into space — powerful blasts of solar plasma and magnetic fields that can trigger geomagnetic storms here on Earth. Coronagraph imagery from the Solar and Heliospheric Observatory (SOHO) and GOES-19 satellite suggests that while the filament eruption did release a CME, there is no Earth-directed component. "The CME is heading away from Earth," aurora chaser Vincent Ledvina wrote in a post on X. "Here is the CME in LASCO C2 (left) and CCOR-1 (right) which has a later frame of the CME further spread out. The front is traveling pretty slowly and away from Earth." You can keep up to date with the latest northern lights forecasts, alerts and geomagnetic storm warnings with our aurora forecast live blog. Solve the daily Crossword
Yahoo
8 hours ago
- Yahoo
2 new NASA satellites will track space weather to help keep us safe from solar storms
When you buy through links on our articles, Future and its syndication partners may earn a commission. A new mission set to blast off for low-Earth orbit will study magnetic storms around the Earth and learn more about how they affect our atmosphere and satellites. NASA's Tandem Reconnection and Cusp Electrodynamics Reconnaissance Satellites, or TRACERS for short, mission represents a pair of satellites that will fly in a sun-synchronous orbit — meaning they are always over the dayside of the Earth — and pass through the polar cusps. The cusps are, in essence, two holes in Earth's magnetosphere, where the field lines dip down onto the magnetic poles. When an influx of solar wind particles slam into Earth's magnetosphere, they can overload the magnetic-field lines, causing them to snap, disconnect and then reconnect. Magnetic reconnection, as the process is called, can release energy that accelerates charged particles down the funnel-shaped cusps and into our atmosphere, where they collide with molecules and, if a solar storm is intense enough, generate auroral lights. When TRACERS launches — expected to be no earlier than late July — it will seek to learn more about the magnetic-reconnection process and how space weather affects our planet. "What we'll learn from TRACERS is critical for understanding, and eventually predicting, how energy from our sun impacts not only the Earth, but also our space- and ground-based assets, whether it be GPS or communications signals, power grids, space assets or our astronauts working in space," said Joe Westlake, Director of NASA's Heliophysics Division, in a NASA teleconference. Historically, the problem in studying magnetic reconnection has been that when a satellite flies through the region of reconnection and captures data, all it sees is a snapshot. Then, 90 minutes or so later on its next orbit, it takes another snapshot. In that elapsed time, the region may have changed, but it's impossible to tell from those snapshots why it's different. It could be because the system itself is changing, or the magnetic-reconnection coupling process between the solar wind and Earth's magnetosphere is moving about — or maybe it is switching on and off. "These are fundamental things that we need to understand," said TRACERS' principal investigator, David Miles of the University of Iowa, in the same teleconference. That's why TRACERS is important, because it is two satellites working in tandem rather than being a lone magnetic explorer. "They're going to follow each other at a very close separation," said Miles. "So, one spacecraft goes through, and within two minutes the second spacecraft comes through, and that gives us two closely spaced measurements." RELATED STORIES — Colossal eruption carves 250,000-mile-long 'canyon of fire' into the sun (video) — May 2024 solar storm cost $500 million in damages to farmers, new study reveals — 'We don't know how bad it could get': Are we ready for the worst space weather? Together, the twin spacecraft will measure the magnetic- and electric-field strengths where magnetic reconnection is taking place, as well as what the local ions and electrons trapped in the magnetosphere are doing. "What TRACERS is going to study is how the output of the sun couples to near-Earth space," said Miles. "What we're looking to understand is how the coupling between those systems changes in space and in time." TRACERS will not be alone out there, and will be able to work with other missions already in operation, such as NASA's Magnetospheric Multiscale Mission (MMM), that studies reconnection from farther afield than TRACERS' low-Earth orbit 590 kilometers above our heads. There's also NASA's Polarimeter to Unify the Corona and Heliosphere (PUNCH) mission, and the Electrojet Zeeman Imaging Explorer (EZIE), which both study solar-wind interactions with our planet from low-Earth orbit. "TRACERS joins the fleet of current heliophysics missions that are actively increasing our understanding of the sun, space weather, and how to mitigate its impacts," said Westlake. The $170 million TRACERS is set to launch no earlier than the end of July on a SpaceX Falcon 9 rocket that will be carrying several other small missions into orbit at the same time. The answers that TRACERS could provide about how magnetic reconnection works will allow scientists to better protect critical infrastructure for when solar storms hit. "It's going to help us keep our way of life safe here on Earth," said Westlake. Solve the daily Crossword
