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Found 5 results

  1. Most Beautiful / So in Love with You Maverick City Music Chandler Moore
  2. Since its launch 30 years ago, the space telescope Hubble has offered fascinating views of countless planets, stars, galaxies, and other cosmic phenomena from God's wonderfully created universe. A number of us have mentioned seeing some of these amazing things on our way to Heaven. It's an awesome thought. Though beautiful as that eternal kingdom shall be, we'll probably get the opportunity to gaze upon these things as well. I believe the Lord desires to share the splendors of His creation with us. I'm looking forward to it. How about you? Hubble celebrates 30 years of science The world’s favorite orbiting observatory has transformed our knowledge about exoplanet atmospheres, the fate of the universe, and almost everything in between. By Richard Talcott | RELATED TOPICS: HUBBLE SPACE TELESCOPE One of the Milky Way’s premier star factories is the Carina Nebula (NGC 3372), which came to life about 3 million years ago when stars first ignited in a cloud of molecular hydrogen. In this view, jets of gas erupt from infant stars emerging from their birthplaces. NASA/ESA/M. Livio and the Hubble 20th Anniversary Team (STScI) It’s hard to believe that nearly half the people alive today have never known a world without the Hubble Space Telescope. The space shuttle Discovery blasted off with its precious cargo from Kennedy Space Center on April 24, 1990, and the next day, the shuttle’s five-person crew deployed the school-bus-sized observatory in low Earth orbit. In the 30 years since, Hubble has helped redefine our universe, tackling problems that had plagued astronomers for decades, as well as discovering new mysteries no one imagined. Of course, Hubble’s history has not been without glitches. The most critical appeared within weeks of its deployment. Early images revealed that the telescope’s 2.4-meter mirror was flawed — its edges were too flat by 2 micrometers, or roughly 1/50 the width of a human hair — and could not focus light sharply. For a telescope whose whole raison d’être was to deliver crystal-clear views of the cosmos from above the distorting effects of Earth’s atmosphere, the imperfection was more than disheartening. Fortunately, NASA designed Hubble to be serviced regularly. On December 3, 1993, a team of seven astronauts rocketed into orbit aboard the space shuttle Endeavour. Their most important task: Install two new instruments that would serve as “eyeglasses” and transform fuzzy images into crystal clarity. Four subsequent servicing missions — the final one in May 2009 — have completely revamped the observatory and made it into a 21st-century science machine. It has captured more than 1 million images of the cosmos, exploring objects as near as the Moon and as distant as some of the first galaxies to form in the early universe. And it has studied myriad examples of almost every type of target that lies between. In January 2002, the star at the center of this image flared to became one of our galaxy’s most luminous suns. This view from October 2004 captures surrounding shells of dust lit up by the eruption. NASA/ESA/The Hubble Heritage Team (STScI/AURA) Planetary weather satellite When people think of Hubble, most picture stunning images of Milky Way nebulae and colorful galaxies. But scientists often set their sights closer to home. No spacecraft has visited Uranus or Neptune since the 1980s, leaving Hubble and large ground-based telescopes to take up the slack. The space telescope has shown Uranus, which appeared as a bland, bluish ball when Voyager 2 flew past in 1986, to be an active world boasting bright clouds of methane. And in Neptune’s atmosphere, Hubble has tracked massive storms, some as big as Earth, propelled by winds that average 900 mph (1,450 km/h). Hubble also has tracked storms on Jupiter and Saturn, augmenting observations made by orbiting spacecraft. And it was the space telescope that first detected evidence that water vapor may be erupting from Jupiter’s moon Europa. The plumes likely represent material from an underground ocean venting through the moon’s icy crust. Hubble played a key role in the success of NASA’s New Horizons’ mission to Pluto. Between 2005 and 2012, the orbiting observatory discovered four new targets for New Horizons: the small moons Hydra, Nix, Kerberos, and Styx. But, more importantly, observations made over several years mapped light and dark regions on the dwarf planet’s surface. The brightest of these areas so intrigued New Horizons scientists that they targeted the flyby so it would be front and center at closest approach in July 2015. That’s how we learned so much about the heart-shaped, nitrogen-ice glacier now known as Tombaugh Regio. Hubble also discovered the Kuiper Belt object 2014 MU69, since named Arrokoth, that New Horizons flew past January 1, 2019. Stellar winds from a massive star (the image’s brightest star) carved the intricate contours of the Bubble Nebula (NGC 7635). The bubble has a bluish tinge, thanks to short-wavelength radiation emanating from ionized oxygen atoms. NASA/ESA/The Hubble Heritage Team (STScI/AURA) Milky Way treasures Beyond the solar system, Hubble opened a new window into star birth and star death. Raised above Earth’s obscuring atmosphere, the space telescope collects not only visible light but also ultraviolet and infrared radiation (light with wavelengths slightly shorter and longer, respectively, than what we can see). The extra information lets scientists probe deeper into the thick clouds of gas and dust that harbor young stars. Now astronomers can observe fledgling stars in gaseous nebulae as they emerge from their birth cocoons. They can watch the hottest of these stellar youths excavate cavities in their surroundings and erode dust-filled pillars where new stars are trying to form. In the nearby Orion Nebula, Hubble revealed protoplanetary disks surrounding dozens of baby stars. These dusty disks appear to be the raw material nature uses to create planets. The Crab Nebula (M1) represents the glowing tendrils of a massive star that earthbound observers saw explode nearly 1,000 years ago, in the year 1054. Astronomers have been able to deduce the nebula’s expansion rate thanks in part to Hubble observations. NASA/ESA/Allison Loll and Jeff Hester (Arizona State University) When Hubble launched, scientists counted only nine planets in the universe. (This was before Pluto’s demotion to dwarf planet status in 2006.) Since the early 1990s, astronomers have discovered more than 4,000 planets orbiting other stars. Although the space telescope contributed only a handful to this total, its spectrographs have analyzed the atmospheres of several exoplanets. Perhaps most intriguingly, Hubble has detected significant amounts of water vapor on a few of these worlds. The lives of stars play out over millions, billions, and sometimes trillions of years, and the space telescope has given astronomers front-row seats to study nearly every stage of stellar evolution. A star like the Sun will eventually puff off its outer layers, creating a glowing death shroud known as a planetary nebula. Hubble has explored dozens of these beautiful structures and found them to be far more complex than previously suspected. Instead of exhaling one dying breath, many Sun-like stars experience multiple death throes. Intricate shapes develop as newly ejected gas interacts with material from older eruptions. Galaxies like the beautiful Whirlpool (M51) played a key role in many of Hubble’s cosmological discoveries. Such island universes are held together by dark matter, harbor supermassive black holes at their centers, help define the expansion rate of the cosmos, and fly away from one another at increasing rates thanks to dark energy. NASA/ESA/S. Beckwith (STScI)/The Hubble Heritage Team (STScI/AURA) Massive explosions Not all stars are destined to die in relative peace. Stars that begin life with more than 8 or so solar masses exit this universe in violent supernova explosions. These titanic blasts seed the cosmos with heavy elements while leaving behind a highly compressed stellar core — either a neutron star or black hole. Hubble has studied the remnants of these explosions, tracing the elements ejected in the blasts and watching as their gaseous tendrils evolve slowly with time. Perhaps most importantly, the space telescope has tracked the remnant developing around the site of Supernova 1987A, a super­giant star that exploded in the Large Magellanic Cloud (LMC) — the Milky Way’s largest satellite galaxy — in February 1987. Over the past 30 years, Hubble has witnessed the supernova’s blast wave lighting up gas ejected by its progenitor star some 20,000 years earlier, and watched as the budding supernova remnant has taken shape. Spiral galaxy M106 in Canes Venatici helped nail down the Hubble constant. A water maser orbiting its central supermassive black hole yielded the spiral’s distance, which Hubble scientists then used to help calibrate the Cepheid variable stars in the galaxy. NASA/ESA/The Hubble Heritage Team (STScI/AURA)/ R. Gendler (for the Hubble Heritage Team) The telescope’s sharp eye has roamed all over the LMC. Its investigation of the Tarantula Nebula — the largest known star-forming region in the universe — resolved one longstanding mystery about the cluster in the Tarantula’s heart. The cluster’s core, dubbed R136a, appeared to be a single star weighing 1,000 solar masses or more, far bigger than astrophysicists deem possible. But Hubble resolved the cluster’s dense core into several smaller stars. Although many tip the scale at more than 100 solar masses, making them among the heftiest stars known, they no longer violate physical law. Hubble’s LMC observations show the telescope can see objects in nearby galaxies in the same detail once possible only in the Milky Way. Black holes (almost) everywhere As Hubble cast its eye deeper into the universe, it made one discovery after another. Perhaps none stirred the public’s imagination more than confirmation that black holes exist, and that they play vital roles in the evolution of galaxies. This signature achievement came in the 1990s, when Hubble examined the cores of M84 and M87, two of the largest galaxies in the nearby Virgo Cluster. This collection of thousands of galaxies lies some 50 million light-years from Earth. Using spectrographs to examine the rapid gas motions in the cores of these galaxies, the telescope revealed a supermassive black hole lurking at the center of each. Although earlier observations had hinted that black holes might exist in some galaxies, Hubble provided ironclad proof. NASA/ESA/The Hubble Heritage Team (STScI/AURA) But even more importantly, Hubble found supermassive black holes to be common. Essentially every galaxy that possesses a dense, spherical bulge of stars surrounding its center hosts one of these beasts. These black holes range in size from perhaps 100,000 solar masses in dwarf galaxies to several billion solar masses in the biggest island universes. Hubble also showed that a black hole and its host galaxy are intimately linked: The masses of the stellar bulge and black hole grow in tandem. Of course, Hubble doesn’t restrict its gaze to the hearts of galaxies. It routinely explores individual stars known as Cepheid variables in nearby galaxies to pin down the expansion rate of the universe. Known as the Hubble constant after American astronomer Edwin Hubble, who discovered this expansion and for whom the space telescope is named, the rate plays a fundamental role in cosmology. Cepheids serve as a critical rung on the cosmic distance ladder because the period of their pulsations tracks with their intrinsic luminosity. Observe how bright one appears in the sky and you can calculate how far away it is. Then measure how fast its host galaxy recedes from Earth and you get the expansion rate. Thirty years of Hubble observations have pinpointed the expansion rate at 73 kilometers per second per megaparsec (one megaparsec equals 3.26 million light-years). Oddly enough, measurements from the European Space Agency’s Planck satellite give a value of 67, and scientists have yet to figure out how to bridge the gap. (See “Tension at the heart of cosmology” in the June 2019 issue.) Tidal forces have pulled material from this pair of interacting spiral galaxies. The Mice sideswiped each other 160 million years ago and are now heading back for round two. Eventually, they will merge into a single elliptical galaxy. NASA/ESA/H. Ford (JHU)/G. Illingworth (UCSC/LO)/M. Clampin (STScI)/ G. Hartig (STScI)/The ACS Science Team When the space telescope looks at galaxies in full, it usually finds a neighbor or two. In fact, Hubble has shown that collisions between galaxies are more the rule than the exception. Some of these collisions are in their early stages. For example, the Whirlpool Galaxy and its companion, NGC 5195, show only subtle traces of an initial interaction. Others, such as the Mice, display the distorted shapes and long tidal tails that develop as gravity acts over longer periods of time. And still others, exemplified by the Antennae galaxies, are experiencing a full-blown impact. Here, the galaxies have lost much of their individual identities as gas clouds ram into one another and trigger a maelstrom of star birth. Speaking of galaxy collisions, Hubble has verified that the Milky Way is not immune. Detailed observations of our large neighbor, the Andromeda Galaxy, show that it is on a collision course with our galaxy and will not merely pass closely. Over the next several billion years, these two behemoths will act out the same scenes now being performed by the Mice and Antennae. It’s not surprising that galaxies collide frequently. After all, Hubble observations show that the universe holds at least 100 billion galaxies. The number comes from the study of several “deep fields” the telescope has taken by turning its cameras on small areas of apparently empty sky and exposing for days at a time. Each deep field captures thousands of galaxies, from which astronomers can estimate the universe’s total number. To the dark side Hubble’s sensitive detectors only pick up the light coming from celestial objects. But clever scientists have used its observations to map out the darkness that dominates our universe. Dark matter is a mysterious material that radiates no light but whose gravity serves as the glue that holds individual galaxies and galaxy clusters together. It makes up 27 percent of the mass-energy content of the universe, more than five times what the normal matter that forms stars, planets, and people contributes. Hubble has studied the aftermath of Supernova 1987A throughout its 30 years in orbit. In this view, released in 2011, the progenitor star’s tattered remains appear as an irregular blob at center, while the bright ring surrounding it consists of material the star released 20,000 years earlier that the supernova’s shock wave is lighting up. NASA/ESA/Pete Challis (Harvard-Smithsonian Center for Astrophysics Although astronomers had seen hints that presaged many of Hubble’s notable findings, the telescope’s greatest discovery came out of the blue. Two research groups — one led by Saul Perlmutter of the University of California, Berkeley, and the other by Brian Schmidt at the Australian National University — were observing distant type Ia supernovae. These blasts occur in binary star systems in which a white dwarf pulls material from a red giant companion. When the white dwarf reaches around 1.4 solar masses, it explodes. Because type Ia supernovae arise from nearly identical progenitor stars, their peak luminosities match. So, once astronomers see how bright the supernova appears, they can calculate its distance. The teams found that the most distant type Ia explosions were fainter than their distances implied. The only way this made sense is if some force, dubbed “dark energy,” is accelerating cosmic expansion. Planck showed that dark energy accounts for about 68 percent of the universe’s mass-energy content, a sign that our universe will expand forever at an ever-increasing rate. Despite Hubble’s wealth of scientific accomplishments, the beauty of its images ranks among its chief legacies. Who isn’t moved at seeing stars literally come to life in the glowing gas of a nearby nebula, watching the delicate tendrils of a dying star whose path the Sun will follow one day, or viewing the dramatic spiral structure of a nearby galaxy? Nearly every image has its own charm, no doubt because it reflects the beauty inherent in nature. And, with any luck, the hits will keep coming for many more years.
  3. No, this certainly isn't new. It it rather beautifully serene. Enjoy... the music is equally placid. Note: There are some even more stunning ones out there, but they are over two hours in length.
  4. Guest

    Einstein Verus Bohr

    He hath made every thing beautiful in his time: also he hath set the world in their heart, so that no man can find out the work that God maketh from the beginning to the end. Ecclesiastes 3:11 From My Studies In Physics I Could Never Understand How A Physicist Could Remain A Pagan But I am the LORD thy God, that divided the sea, whose waves roared: The LORD of hosts is his name. And I have put my words in thy mouth, and I have covered thee in the shadow of mine hand, that I may plant the heavens, and lay the foundations of the earth, and say unto Zion, Thou art my people. Isaiah 51:15-16 Unless They're Just Plum Stubborn That Is They are corrupt, and speak wickedly concerning oppression: they speak loftily. They set their mouth against the heavens, and their tongue walketh through the earth. Psalms 73:8-9 ~ Believe For God so loved the world, that he gave his only begotten Son, that whosoever believeth in him should not perish, but have everlasting life. John 3:16 And Be Blessed Beloved Love, Joe
  5. By the way... The red background is supposed to symbolize the blood of Christ I believe. Check it out! You were near Though I was distant Disillusioned I was Lost and insecure Still mercy fought For my attention You were waiting at the door Then I let you in Trading your life For my offenses For my redemption You carried all the blame Breaking the curse Of our condition Perfection took our place Chorus: When only love could make a way You gave your life in a beautiful exchange My burden erased My life forgiven There is nothing that could take this love away And my only desire and sole ambition Is to love you just the same Chorus: When only love could make a way You gave your life in a beautiful exchange When only love could break these chains You gave your life in a beautiful exchange Bridge: Holy are you God Holy is your name With everything I’ve got My heart will sing how I love you
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