Latest news with #SouthernHemisphere
Yahoo
6 hours ago
- Science
- Yahoo
Sunshine abounds as the summer solstice arrives
Peak sunshine has arrived in the Northern Hemisphere — the summer solstice. Friday is the longest day of the year north of the equator, where the solstice marks the start of astronomical summer. It's the opposite in the Southern Hemisphere, where it is the shortest day of the year and winter will start. The word 'solstice' comes from the Latin words 'sol' for sun and 'stitium' which can mean 'pause' or 'stop.' The solstice is the end of the sun's annual march higher in the sky, when it makes its longest, highest arc. The bad news for sun lovers: It then starts retreating and days will get a little shorter every day until late December. People have marked solstices for eons with celebrations and monuments, including Stonehenge, which was designed to align with the sun's paths at the solstices. But what is happening in the heavens? Here's what to know about the Earth's orbit. Solstices are when days and nights are at their most extreme As the Earth travels around the sun, it does so at an angle relative to the sun. For most of the year, the Earth's axis is tilted either toward or away from the sun. That means the sun's warmth and light fall unequally on the northern and southern halves of the planet. The solstices mark the times during the year when this tilt is at its most extreme, and days and nights are at their most unequal. During the Northern Hemisphere's summer solstice, the upper half of the earth is tilted toward the sun, creating the longest day and shortest night of the year. This solstice falls between June 20 and 22. Meanwhile, at the winter solstice, the Northern Hemisphere is leaning away from the sun — leading to the shortest day and longest night of the year. The winter solstice falls between December 20 and 23. The equinox is when there is an equal amount of day and night During the equinox, the Earth's axis and its orbit line up so that both hemispheres get an equal amount of sunlight. The word equinox comes from two Latin words meaning equal and night. That's because on the equinox, day and night last almost the same amount of time — though one may get a few extra minutes, depending on where you are on the planet. The Northern Hemisphere's spring — or vernal — equinox can land between March 19 and 21, depending on the year. Its fall – or autumnal — equinox can land between Sept. 21 and 24. On the equator, the sun will be directly overhead at noon. Equinoxes are the only time when both the north and south poles are lit by sunshine at the same time. What's the difference between meteorological and astronomical seasons? These are just two different ways to carve up the year. While astronomical seasons depend on how the Earth moves around the sun, meteorological seasons are defined by the weather. They break down the year into three-month seasons based on annual temperature cycles. By that calendar, spring starts on March 1, summer on June 1, fall on Sept. 1 and winter on Dec. 1. ___ The Associated Press Health and Science Department receives support from the Howard Hughes Medical Institute's Department of Science Education and the Robert Wood Johnson Foundation. The AP is solely responsible for all content.
The Independent
12 hours ago
- Science
- The Independent
Sunshine abounds as the summer solstice arrives
Peak sunshine has arrived in the Northern Hemisphere — the summer solstice. Friday is the longest day of the year north of the equator, where the solstice marks the start of astronomical summer. It's the opposite in the Southern Hemisphere, where it is the shortest day of the year and winter will start. The word 'solstice' comes from the Latin words 'sol' for sun and 'stitium' which can mean 'pause' or 'stop.' The solstice is the end of the sun's annual march higher in the sky, when it makes its longest, highest arc. The bad news for sun lovers: It then starts retreating and days will get a little shorter every day until late December. People have marked solstices for eons with celebrations and monuments, including Stonehenge, which was designed to align with the sun's paths at the solstices. But what is happening in the heavens? Here's what to know about the Earth's orbit. As the Earth travels around the sun, it does so at an angle relative to the sun. For most of the year, the Earth's axis is tilted either toward or away from the sun. That means the sun's warmth and light fall unequally on the northern and southern halves of the planet. The solstices mark the times during the year when this tilt is at its most extreme, and days and nights are at their most unequal. During the Northern Hemisphere's summer solstice, the upper half of the earth is tilted toward the sun, creating the longest day and shortest night of the year. This solstice falls between June 20 and 22. Meanwhile, at the winter solstice, the Northern Hemisphere is leaning away from the sun — leading to the shortest day and longest night of the year. The winter solstice falls between December 20 and 23. The equinox is when there is an equal amount of day and night During the equinox, the Earth's axis and its orbit line up so that both hemispheres get an equal amount of sunlight. The word equinox comes from two Latin words meaning equal and night. That's because on the equinox, day and night last almost the same amount of time — though one may get a few extra minutes, depending on where you are on the planet. The Northern Hemisphere's spring — or vernal — equinox can land between March 19 and 21, depending on the year. Its fall – or autumnal — equinox can land between Sept. 21 and 24. On the equator, the sun will be directly overhead at noon. Equinoxes are the only time when both the north and south poles are lit by sunshine at the same time. What's the difference between meteorological and astronomical seasons? These are just two different ways to carve up the year. While astronomical seasons depend on how the Earth moves around the sun, meteorological seasons are defined by the weather. They break down the year into three-month seasons based on annual temperature cycles. By that calendar, spring starts on March 1, summer on June 1, fall on Sept. 1 and winter on Dec. 1. ___ The Associated Press Health and Science Department receives support from the Howard Hughes Medical Institute's Department of Science Education and the Robert Wood Johnson Foundation. The AP is solely responsible for all content.
Associated Press
12 hours ago
- Science
- Associated Press
Sunshine abounds as the summer solstice arrives
Peak sunshine has arrived in the Northern Hemisphere — the summer solstice. Friday is the longest day of the year north of the equator, where the solstice marks the start of astronomical summer. It's the opposite in the Southern Hemisphere, where it is the shortest day of the year and winter will start. The word 'solstice' comes from the Latin words 'sol' for sun and 'stitium' which can mean 'pause' or 'stop.' The solstice is the end of the sun's annual march higher in the sky, when it makes its longest, highest arc. The bad news for sun lovers: It then starts retreating and days will get a little shorter every day until late December. People have marked solstices for eons with celebrations and monuments, including Stonehenge, which was designed to align with the sun's paths at the solstices. But what is happening in the heavens? Here's what to know about the Earth's orbit. Solstices are when days and nights are at their most extreme As the Earth travels around the sun, it does so at an angle relative to the sun. For most of the year, the Earth's axis is tilted either toward or away from the sun. That means the sun's warmth and light fall unequally on the northern and southern halves of the planet. The solstices mark the times during the year when this tilt is at its most extreme, and days and nights are at their most unequal. During the Northern Hemisphere's summer solstice, the upper half of the earth is tilted toward the sun, creating the longest day and shortest night of the year. This solstice falls between June 20 and 22. Meanwhile, at the winter solstice, the Northern Hemisphere is leaning away from the sun — leading to the shortest day and longest night of the year. The winter solstice falls between December 20 and 23. The equinox is when there is an equal amount of day and night During the equinox, the Earth's axis and its orbit line up so that both hemispheres get an equal amount of sunlight. The word equinox comes from two Latin words meaning equal and night. That's because on the equinox, day and night last almost the same amount of time — though one may get a few extra minutes, depending on where you are on the planet. The Northern Hemisphere's spring — or vernal — equinox can land between March 19 and 21, depending on the year. Its fall – or autumnal — equinox can land between Sept. 21 and 24. On the equator, the sun will be directly overhead at noon. Equinoxes are the only time when both the north and south poles are lit by sunshine at the same time. What's the difference between meteorological and astronomical seasons? These are just two different ways to carve up the year. While astronomical seasons depend on how the Earth moves around the sun, meteorological seasons are defined by the weather. They break down the year into three-month seasons based on annual temperature cycles. By that calendar, spring starts on March 1, summer on June 1, fall on Sept. 1 and winter on Dec. 1. ___ The Associated Press Health and Science Department receives support from the Howard Hughes Medical Institute's Department of Science Education and the Robert Wood Johnson Foundation. The AP is solely responsible for all content.
Al Arabiya
2 days ago
- Science
- Al Arabiya
This photo of the nearby Sculptor Galaxy spans 65,000 light-years
Astronomers have revealed a nearby spiral galaxy in all its brilliant glory, shining in thousands of colors. The dazzling panoramic shot released Wednesday of the Sculptor galaxy by a telescope in Chile is so detailed that it's already serving as a star-packed map. Scientists used the European Southern Observatory's Very Large Telescope to observe the galaxy for some 50 hours, stitching together more than 100 exposures to create the picture. The image spans 65,000 light-years – almost the entire galaxy. A light-year is 5.8 trillion miles. Sculptor–officially labeled NGC 253–is considered a starburst galaxy, one heavy with stellar action. It's located 11 million light-years away in the Southern Hemisphere's constellation Sculptor and easy to view with binoculars or small telescopes. 'The Sculptor galaxy is in a sweet spot,' the observatory's Enrico Congiu, who led the research, said in a statement. 'It is close enough that we can resolve its internal structure and study its building blocks with incredible detail, but at the same time big enough that we can still see it as a whole system.' The more shades of color from stars, gas, and dust in a galaxy, the more clues to their age, composition, and motion, according to the scientists. Sculptor's latest snapshot contains thousands of colors–a glowing montage of purples, pinks, and yellows–compared with just a handful for traditional pictures. The team has already discovered 500 planetary nebulae, clouds of gas and dust from dying stars that can serve as cosmic mile markers. Their research has been accepted for publication in the journal Astronomy & Astrophysics.
Gizmodo
2 days ago
- Science
- Gizmodo
Bogong Moths Are First Bugs Known to Use Stars for Long-Distance Travel
Every spring in the Southern Hemisphere, Bogong moths migrate up to 621 miles (1,000 kilometers) from southeast Australia to spend the summer in cool caves in the Australian Alps. At the beginning of the fall, they fly back to their breeding grounds and die. Each moth undertakes the two-way journey only once in its life—so how does it know where it's going? A team led by David Dreyer, a visiting research fellow in sensory biology at Lund University, suggests that Bogong moths may use the starry sky—among other tools—to navigate in the right direction. If this proves to be true, Dreyer and his colleagues claim it would make the Australian Bogong moth the first known invertebrate to 'use the stars for discerning specific geographical directions (that is, a direction relative to north) for directed long-range navigation to a distant goal,' the team wrote in a new study, published today in the journal Nature. In 2018, the same researchers suggested that Bogong moths reach their destinations by both sensing Earth's magnetic field and by using unknown visual landmarks. In fact, as noted by a Nature News and Views article, some animals rely on several different navigational methods. To test whether the night sky plays a role in guiding the moths, the team captured the insects at the start of their migration and placed them in a planetarium-like simulator. 'By tethering spring and autumn migratory moths in a flight simulator, we found that, under naturalistic moonless night skies and in a nulled geomagnetic field (disabling the moth's known magnetic sense), moths flew in their seasonally appropriate migratory directions,' the researchers explained in the study. As ancient seafarers would attest, the predictable positions of stars make them a reliable navigational tool. Nonetheless, scientists have previously documented only some night-migratory birds using starlight to find a specific geographical direction. Dung Beetles use the stars to travel in a straight line, but they are not migratory insects—they're not using stellar cues for long-distance travel like birds and Bogong moths do. By analyzing the moth's brain, the scientists also demonstrated that neurons linked to vision 'responded specifically to rotations of the night sky and were tuned to a common sky orientation,' showing the greatest activity 'when the moth was headed southwards.' In other words, their brains appear to be wired to pick up on stellar cues. However, the parts of the starry sky that moths specifically rely on for directions remain a mystery, especially since it is unclear whether moths can even see individual stars. The researchers theorize that the moths can likely see the Milky Way, while constellations, the Moon, and potentially dark features on the horizon might also serve as reliable navigational cues. Ultimately, the study builds on the team's previous research by further illuminating the Bogong moth's directional toolkit. 'Our results suggest that Bogong moths use stellar cues and the Earth's magnetic field to create a robust compass system for long-distance nocturnal navigation towards a specific destination,' the researchers concluded. The next time intense solar activity causes GPS blackouts, I bet we'll all be wishing we were Bogong moths.
