Apple’s Plans for Foldable Devices
Recent reports suggest that Apple is intensifying its efforts in the development of foldable devices. According to an investor note by Haitong International Securities analyst Jeff Pu, Apple is gearing up for mass production of a 20.3-inch foldable device by late 2025, followed by a foldable iPhone in late 2026.
Prior reports by Ming-Chi Kuo and Ross Young hinted at Apple's work on a 20.3-inch foldable MacBook and a 20-inch foldable hybrid device, respectively. Bloomberg's Mark Gurman also mentioned Apple's exploration of a dual-screen, foldable MacBook/iPad hybrid.
The latest report indicates that Apple has expedited its foldable device projects, with a growing visibility in the supply chain. These devices are said to target the ultra-high-end market, with potential screen sizes for the foldable iPhone being 7.9-inches and 8.3-inches.
It is claimed that the 20.3-inch foldable device will enter mass production in late 2025, followed by the foldable iPhone in late 2026.
Implications and Speculations
While the timeline presented is ambitious, it has not been independently verified by other sources. It is advisable to approach this information with caution. Nonetheless, the prospect of Apple venturing into the foldable device market is intriguing.
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Unlocking the Mysteries of NGC 6440: Observations from the James Webb Space Telescope
The attention of the academic world has focused on the bright globular cluster at the center of our Galaxy, captured by the James Webb Space Telescope. The difference with the observation information of the same star cluster captured in the past by the Hubble Space Telescope was evident, allowing us to understand the performance of the James Webb Space Telescope.
On the 2nd, the European Space Agency (ESA) presented through its official channel the latest image of the globular cluster “NGC 6440” seen through the near-infrared camera of the James Webb Space Telescope (NIRCam).
“NGC 6440” is located approximately 28,000 light-years from Earth towards the constellation Sagittarius. A globular cluster is a celestial body in which tens of thousands or millions of stars are collected in a spherical shape. In the photo, countless stars shine like jewels. In our Galaxy alone there are about 150 globular clusters.
NGC 6440, a globular cluster in our galaxy captured by the NIRCam of the James Webb Space Telescope. 사진=ESA 공식 홈페이지>
An ESA official said: “The observation of ‘NGC 6440’ by the James Webb Space Telescope is part of research to investigate the more detailed properties of the binary pulsar ‘PSR J1748-2021B’.” A binary pulsar is a pulsar that accompanies reflection and ‘PSR J1748’ “The ‘-2021B’ pulsar is estimated to have a mass about 2.5 times that of the sun.”
“This value is almost equal to the upper limit of the mass of a neutron star predicted in theory,” he said “If you know the reflected mass, you can also check the mass of the main star, the pulsar. so this observation from the James Webb Space Telescope is very important in space physics.”
A pulsar is a type of neutron star that emits periodic electromagnetic waves like a flashing light. The direction of the emission of electromagnetic waves from a rapidly rotating neutron star changes continuously due to its rotation, so it is observed from Earth in the form of a pulse.
Through this observation by the James Webb Space Telescope, it was also revealed for the first time that the amounts of helium and oxygen contained in the stars within “NGC 6440” are different.
An ESA official said: “Because gas containing a lot of dust is distributed in the direction of Sagittarius or the nearby constellation of Scorpius, the light emitted by the star is easily absorbed and scattered. In particular, the star appears redder than or in reality, this is why it was considered a difficult area to observe.” He explained.
This official said, “The James Webb Space Telescope can observe infrared light relatively unimpeded by space dust,” and added, “For this reason, like ‘NGC 6440,’ we expect it to continue to reveal detailed information on the central core.” cluster of our Galaxy. “he did.
Journalist Jeong Ian [email protected]
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Unlocking the Mysteries of NGC 6440: Observations from the James Webb Space Telescope
Where is the edge of the solar system really located? Not where you think
Defining boundaries can simplify our understanding of the world, but when it comes to concepts like the size of the Solar System, things can get complex. In fact, the traditional vision with the Sun in the center and the planets orbiting it may not be enough to describe its true limits.
The solar system it does not end with the orbit of Neptune, as is often imagined. Beyond the outermost planet, vast spaces extend that are still bound to the Sun by the force of gravity. Trans-Neptunian objects (TNOs), for example, include icy bodies orbiting in the so-called Kuiper belt and the remote Oort cloud. The latter can extend up to a trillion kilometers from the Sunan immense distance when compared to the orbits of the planets.
The question of the boundaries of the solar system has become topical with the recent news regarding the Voyager 1 probe. Launched in 1977, it reached a distance of 24 billion kilometers from Earthmore than 160 times the distance between the Earth and the Sun. After a communications interruption due to a hardware failure, engineers managed to restore operations.
In 2013, NASA announced that the probe had crossed the heliopauseentering interstellar space in 2012. This raised a discussion: although it had entered a region dominated by the interstellar medium, Voyager 1 was still influenced by the gravity of the Sunproving that the boundaries of the solar system are not as clear-cut as one might think.
The discovery of Voyager 1 highlighted how our understanding of the boundaries of the solar system is still evolving. Just like the debate over the Kármán line, which attempts to establish the boundary between Earth’s atmosphere and outer space, the definition of the heliopause is also subject to scientific reviews and discussions.
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Where is the edge of the solar system really located? Not where you think