The James Webb Telescope is poised to be a groundbreaking instrument in the field of astronomy and space exploration. With its advanced technology, larger mirror, and powerful instruments, it has the potential to provide unprecedented insights into the early universe, the formation of galaxies, stars, and planetary systems. By studying the most distant objects in the universe, the JWST will offer valuable information about the origins of galaxies and the conditions necessary for life-supporting planets to emerge.
Since NASA launched its Hubble Space Telescope in 1990, space scientists at the University of Arizona in Tucson have used it to expand our knowledge of the Universe time and time again.
The James Webb Telescope is poised to be a groundbreaking instrument in the field of astronomy and space exploration. With its advanced technology, larger mirror, and powerful instruments, it has the potential to provide unprecedented insights into the early universe, the formation of galaxies, stars, and planetary systems. By studying the most distant objects in the universe, the JWST will offer valuable information about the origins of galaxies and the conditions necessary for life-supporting planets to emerge.
Since NASA launched its Hubble Space Telescope in 1990, space scientists at the University of Arizona in Tucson have used it to expand our knowledge of the Universe time and time again.
The twin Voyager 1 and 2 spacecraft are exploring where nothing from Earth has flown before. Continuing on their more-than-40-year journey since their 1977 launches, they each are much farther away from Earth and the sun than Pluto. In August 2012, Voyager 1 made the historic entry into interstellar space, the region between stars, filled with material ejected by the death of nearby stars millions of years ago. Voyager 2 entered interstellar space on November 5, 2018 and scientists hope to learn more about this region. Both spacecraft are still sending scientific information about their surroundings through the Deep Space Network, or DSN.
The primary mission was the exploration of Jupiter and Saturn. After making a string of discoveries there — such as active volcanoes on Jupiter's moon Io and intricacies of Saturn's rings — the mission was extended. Voyager 2 went on to explore Uranus and Neptune, and is still the only spacecraft to have visited those outer planets. The adventurers' current mission, the Voyager Interstellar Mission (VIM), will explore the outermost edge of the Sun's domain. And beyond.
Astronomy1013 WritingCPresented by Summary of th.docxikirkton
Astronomy 1013: Writing C
Presented by:
Summary of the video
The twin Voyager 1 and 2 spacecraft are exploring where nothing from Earth has flown before. Continuing on their more-than-37-year journey since their 1977 launches, they each are much farther away from Earth and the sun than Pluto. In August 2012, Voyager 1 made the historic entry into interstellar space, the region between stars, filled with material ejected by the death of nearby stars millions of years ago.
Scientists hope to learn more about this region when Voyager 2, in the “heliosheath" -- the outermost layer of the heliosphere where the solar wind is slowed by the pressure of interstellar medium -- also reaches interstellar space. Both spacecraft are still sending scientific information about their surroundings through the Deep Space Network, or DSN.
Summary of the video
The primary mission was the exploration of Jupiter and Saturn. After making a string of discoveries there -- such as active volcanoes on Jupiter's moon Io and intricacies of Saturn's rings -- the mission was extended. Voyager 2 went on to explore Uranus and Neptune, and is still the only spacecraft to have visited those outer planets.
Voyager 2 is a space probe launched by NASA on August 20, 1977 to study the outer planets. Part of the Voyager program, it was launched 16 days before its twin, Voyager 1, on a trajectory that took longer to reach Jupiter and Saturn but enabled further encounters with Uranus and Neptune. It is the only spacecraft to have ever visited either of the ice giants.
How science works
its primary mission ended with the exploration of the Neptunian system on October 2, 1989, after having visited the Uranian system in 1986, the Saturnian system in 1981, and the Jovian system in 1979. Voyager 2 is now in its extended mission to study the outer reaches of the Solar System and has been operating for 38 years, 2 months and 11 days. It remains in contact through the Deep Space Network.
science depends on interactions within the scientific community. Different parts of the process of science may be carried out by different people at different times and this mission has made space exploration history by becoming the first spacecraft from Earth to leave the solar system behind and enter interstellar space.
How science works
The "assist" is provided by the motion of the gravitating body as it pulls on the spacecraft. It was used by interplanetary probes from Mariner 10 onwards, including the two Voyager probes' notable flybys of Jupiter and Saturn.
Voyager 1 first detected the increased pressure of interstellar space on the heliosphere, the bubble of charged particles surrounding the sun that reaches far beyond the outer planets, in 2004. Scientists then ramped up their search for evidence of the spacecraft's interstellar arrival, knowing the data analysis and interpretation could take months or years. The science behind "The team’s hard work to build durable spacecraft and ...
NASA scientists say that we are about to loose our favourite Dawn spacecraft that has been studying the Asteroid Belt largest objects Ceres and Vesta for the past 11 years. In the next few weeks Dawn will run out of fuel needed to keep the spacecraft’s antennas pointed to the Earths and instruments to the target. When it happens, Dawn will not be able to do any more science or talk to the ground control. It will continue silently orbiting the dwarf planet Ceres for quite some time, possibly for the next twenty years.
James Webb Space Telescope Reveals Unprecedented Details of Uranus | Enterpri...Enterprise Wired
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This is a 2024 NASA Calendar . This has information such as Rear Admiral Evelyn Fields is the first woman and first African American to lead
the NOAA Commissioned Officer Corps, which is one of the nation’s eight uniformed
services. Fields began her career at NOAA as a cartographer in 1972, only two years
after the agency formed. Less than a year later, the NOAA Corps began accepting
women into its commissioned officer ranks, and she became the first African American
woman to join. Fields became a rear admiral and director of both NOAA Corps
and the Office of Marine and Aviation Operations in 1999. She is the first woman
to become a NOAA Corps rear admiral. Fields retired in late 2003. Photo credit:
NOAA/Military Officer Association of America and Dr. Eric Cornell is a co-principal investigator on NASA’s Cold Atom Lab and
a fellow at JILA, a joint institute between the National Institute of Standards
and Technology (NIST) and the University of Colorado Boulder. His research
focuses on ultracold atoms and on precision metrology (the scientific study
of measurement) in the service of fundamental physics. Along with Dr. Carl
Wieman and Dr. Wolfgang Ketterle, he was awarded the 2001 Nobel Prize for
the first experimental realization of a Bose-Einstein condensate—a fifth state of
matter first predicted in 1917. Today, the techniques that Cornell helped develop
for cooling atoms to ultracold temperatures are used in laboratories around the
world and on the International Space Station by the Cold Atom Lab. Photo credit:
University of Colorado Boulder
James Webb Telescope: Pioneering the Frontier of Space Exploration524RohitBhupalam
Embark on an awe-inspiring journey that traverses both space and time, all thanks to the incredible James Webb Telescope! 🌌✨
Prepare for wonderment as we delve into the inner workings of this remarkable telescope and the ingenious solutions that brilliant scientists found to overcome formidable challenges. Our presentation is a gallery of mesmerizing images, each captured by the telescope—a visual feast showcasing galaxies, stars, and celestial marvels, all of which could easily be mistaken as art.
However, what truly sets the James Webb Telescope apart is its ability to grant us a glimpse into the past. Imagine a time machine that allows us to observe the universe as it existed billions of years ago, unraveling the very beginning of cosmic evolution. 🕰️⏳ As we peel back the layers, you'll discover how this remarkable feat is achieved, forever altering our perception of the cosmos and the events that shaped it.
Join us on this extraordinary expedition as we navigate the cosmos, guided by the James Webb Telescope's unerring gaze. 🚀🔭✨ Prepare to be not only amazed but also stirred with an curiosity that will forever change the way you perceive the universe around us.
The twin Voyager 1 and 2 spacecraft are exploring where nothing from Earth has flown before. Continuing on their more-than-40-year journey since their 1977 launches, they each are much farther away from Earth and the sun than Pluto. In August 2012, Voyager 1 made the historic entry into interstellar space, the region between stars, filled with material ejected by the death of nearby stars millions of years ago. Voyager 2 entered interstellar space on November 5, 2018 and scientists hope to learn more about this region. Both spacecraft are still sending scientific information about their surroundings through the Deep Space Network, or DSN.
The primary mission was the exploration of Jupiter and Saturn. After making a string of discoveries there — such as active volcanoes on Jupiter's moon Io and intricacies of Saturn's rings — the mission was extended. Voyager 2 went on to explore Uranus and Neptune, and is still the only spacecraft to have visited those outer planets. The adventurers' current mission, the Voyager Interstellar Mission (VIM), will explore the outermost edge of the Sun's domain. And beyond.
Engaging with Activist Investors_ Best Practices for Companies.pdfTEWMAGAZINE
✔Engaging with Activist Investors: Best Practices for Companies
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For More Information
📕read - https://theenterpriseworld.com/activist-investors-practices-for-companies/
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The twin Voyager 1 and 2 spacecraft are exploring where nothing from Earth has flown before. Continuing on their more-than-40-year journey since their 1977 launches, they each are much farther away from Earth and the sun than Pluto. In August 2012, Voyager 1 made the historic entry into interstellar space, the region between stars, filled with material ejected by the death of nearby stars millions of years ago. Voyager 2 entered interstellar space on November 5, 2018 and scientists hope to learn more about this region. Both spacecraft are still sending scientific information about their surroundings through the Deep Space Network, or DSN.
The primary mission was the exploration of Jupiter and Saturn. After making a string of discoveries there — such as active volcanoes on Jupiter's moon Io and intricacies of Saturn's rings — the mission was extended. Voyager 2 went on to explore Uranus and Neptune, and is still the only spacecraft to have visited those outer planets. The adventurers' current mission, the Voyager Interstellar Mission (VIM), will explore the outermost edge of the Sun's domain. And beyond.
Astronomy1013 WritingCPresented by Summary of th.docxikirkton
Astronomy 1013: Writing C
Presented by:
Summary of the video
The twin Voyager 1 and 2 spacecraft are exploring where nothing from Earth has flown before. Continuing on their more-than-37-year journey since their 1977 launches, they each are much farther away from Earth and the sun than Pluto. In August 2012, Voyager 1 made the historic entry into interstellar space, the region between stars, filled with material ejected by the death of nearby stars millions of years ago.
Scientists hope to learn more about this region when Voyager 2, in the “heliosheath" -- the outermost layer of the heliosphere where the solar wind is slowed by the pressure of interstellar medium -- also reaches interstellar space. Both spacecraft are still sending scientific information about their surroundings through the Deep Space Network, or DSN.
Summary of the video
The primary mission was the exploration of Jupiter and Saturn. After making a string of discoveries there -- such as active volcanoes on Jupiter's moon Io and intricacies of Saturn's rings -- the mission was extended. Voyager 2 went on to explore Uranus and Neptune, and is still the only spacecraft to have visited those outer planets.
Voyager 2 is a space probe launched by NASA on August 20, 1977 to study the outer planets. Part of the Voyager program, it was launched 16 days before its twin, Voyager 1, on a trajectory that took longer to reach Jupiter and Saturn but enabled further encounters with Uranus and Neptune. It is the only spacecraft to have ever visited either of the ice giants.
How science works
its primary mission ended with the exploration of the Neptunian system on October 2, 1989, after having visited the Uranian system in 1986, the Saturnian system in 1981, and the Jovian system in 1979. Voyager 2 is now in its extended mission to study the outer reaches of the Solar System and has been operating for 38 years, 2 months and 11 days. It remains in contact through the Deep Space Network.
science depends on interactions within the scientific community. Different parts of the process of science may be carried out by different people at different times and this mission has made space exploration history by becoming the first spacecraft from Earth to leave the solar system behind and enter interstellar space.
How science works
The "assist" is provided by the motion of the gravitating body as it pulls on the spacecraft. It was used by interplanetary probes from Mariner 10 onwards, including the two Voyager probes' notable flybys of Jupiter and Saturn.
Voyager 1 first detected the increased pressure of interstellar space on the heliosphere, the bubble of charged particles surrounding the sun that reaches far beyond the outer planets, in 2004. Scientists then ramped up their search for evidence of the spacecraft's interstellar arrival, knowing the data analysis and interpretation could take months or years. The science behind "The team’s hard work to build durable spacecraft and ...
NASA scientists say that we are about to loose our favourite Dawn spacecraft that has been studying the Asteroid Belt largest objects Ceres and Vesta for the past 11 years. In the next few weeks Dawn will run out of fuel needed to keep the spacecraft’s antennas pointed to the Earths and instruments to the target. When it happens, Dawn will not be able to do any more science or talk to the ground control. It will continue silently orbiting the dwarf planet Ceres for quite some time, possibly for the next twenty years.
James Webb Space Telescope Reveals Unprecedented Details of Uranus | Enterpri...Enterprise Wired
The James Webb Space Telescope has unveiled a breathtaking new portrait of Uranus, offering an intricate view of the ice giant's concealed rings, moons, weather patterns, and atmosphere.
This is a 2024 NASA Calendar . This has information such as Rear Admiral Evelyn Fields is the first woman and first African American to lead
the NOAA Commissioned Officer Corps, which is one of the nation’s eight uniformed
services. Fields began her career at NOAA as a cartographer in 1972, only two years
after the agency formed. Less than a year later, the NOAA Corps began accepting
women into its commissioned officer ranks, and she became the first African American
woman to join. Fields became a rear admiral and director of both NOAA Corps
and the Office of Marine and Aviation Operations in 1999. She is the first woman
to become a NOAA Corps rear admiral. Fields retired in late 2003. Photo credit:
NOAA/Military Officer Association of America and Dr. Eric Cornell is a co-principal investigator on NASA’s Cold Atom Lab and
a fellow at JILA, a joint institute between the National Institute of Standards
and Technology (NIST) and the University of Colorado Boulder. His research
focuses on ultracold atoms and on precision metrology (the scientific study
of measurement) in the service of fundamental physics. Along with Dr. Carl
Wieman and Dr. Wolfgang Ketterle, he was awarded the 2001 Nobel Prize for
the first experimental realization of a Bose-Einstein condensate—a fifth state of
matter first predicted in 1917. Today, the techniques that Cornell helped develop
for cooling atoms to ultracold temperatures are used in laboratories around the
world and on the International Space Station by the Cold Atom Lab. Photo credit:
University of Colorado Boulder
James Webb Telescope: Pioneering the Frontier of Space Exploration524RohitBhupalam
Embark on an awe-inspiring journey that traverses both space and time, all thanks to the incredible James Webb Telescope! 🌌✨
Prepare for wonderment as we delve into the inner workings of this remarkable telescope and the ingenious solutions that brilliant scientists found to overcome formidable challenges. Our presentation is a gallery of mesmerizing images, each captured by the telescope—a visual feast showcasing galaxies, stars, and celestial marvels, all of which could easily be mistaken as art.
However, what truly sets the James Webb Telescope apart is its ability to grant us a glimpse into the past. Imagine a time machine that allows us to observe the universe as it existed billions of years ago, unraveling the very beginning of cosmic evolution. 🕰️⏳ As we peel back the layers, you'll discover how this remarkable feat is achieved, forever altering our perception of the cosmos and the events that shaped it.
Join us on this extraordinary expedition as we navigate the cosmos, guided by the James Webb Telescope's unerring gaze. 🚀🔭✨ Prepare to be not only amazed but also stirred with an curiosity that will forever change the way you perceive the universe around us.
The twin Voyager 1 and 2 spacecraft are exploring where nothing from Earth has flown before. Continuing on their more-than-40-year journey since their 1977 launches, they each are much farther away from Earth and the sun than Pluto. In August 2012, Voyager 1 made the historic entry into interstellar space, the region between stars, filled with material ejected by the death of nearby stars millions of years ago. Voyager 2 entered interstellar space on November 5, 2018 and scientists hope to learn more about this region. Both spacecraft are still sending scientific information about their surroundings through the Deep Space Network, or DSN.
The primary mission was the exploration of Jupiter and Saturn. After making a string of discoveries there — such as active volcanoes on Jupiter's moon Io and intricacies of Saturn's rings — the mission was extended. Voyager 2 went on to explore Uranus and Neptune, and is still the only spacecraft to have visited those outer planets. The adventurers' current mission, the Voyager Interstellar Mission (VIM), will explore the outermost edge of the Sun's domain. And beyond.
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https://www.etran.rs/2024/en/home-english/
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Slide 1: Title Slide
Extrachromosomal Inheritance
Slide 2: Introduction to Extrachromosomal Inheritance
Definition: Extrachromosomal inheritance refers to the transmission of genetic material that is not found within the nucleus.
Key Components: Involves genes located in mitochondria, chloroplasts, and plasmids.
Slide 3: Mitochondrial Inheritance
Mitochondria: Organelles responsible for energy production.
Mitochondrial DNA (mtDNA): Circular DNA molecule found in mitochondria.
Inheritance Pattern: Maternally inherited, meaning it is passed from mothers to all their offspring.
Diseases: Examples include Leber’s hereditary optic neuropathy (LHON) and mitochondrial myopathy.
Slide 4: Chloroplast Inheritance
Chloroplasts: Organelles responsible for photosynthesis in plants.
Chloroplast DNA (cpDNA): Circular DNA molecule found in chloroplasts.
Inheritance Pattern: Often maternally inherited in most plants, but can vary in some species.
Examples: Variegation in plants, where leaf color patterns are determined by chloroplast DNA.
Slide 5: Plasmid Inheritance
Plasmids: Small, circular DNA molecules found in bacteria and some eukaryotes.
Features: Can carry antibiotic resistance genes and can be transferred between cells through processes like conjugation.
Significance: Important in biotechnology for gene cloning and genetic engineering.
Slide 6: Mechanisms of Extrachromosomal Inheritance
Non-Mendelian Patterns: Do not follow Mendel’s laws of inheritance.
Cytoplasmic Segregation: During cell division, organelles like mitochondria and chloroplasts are randomly distributed to daughter cells.
Heteroplasmy: Presence of more than one type of organellar genome within a cell, leading to variation in expression.
Slide 7: Examples of Extrachromosomal Inheritance
Four O’clock Plant (Mirabilis jalapa): Shows variegated leaves due to different cpDNA in leaf cells.
Petite Mutants in Yeast: Result from mutations in mitochondrial DNA affecting respiration.
Slide 8: Importance of Extrachromosomal Inheritance
Evolution: Provides insight into the evolution of eukaryotic cells.
Medicine: Understanding mitochondrial inheritance helps in diagnosing and treating mitochondrial diseases.
Agriculture: Chloroplast inheritance can be used in plant breeding and genetic modification.
Slide 9: Recent Research and Advances
Gene Editing: Techniques like CRISPR-Cas9 are being used to edit mitochondrial and chloroplast DNA.
Therapies: Development of mitochondrial replacement therapy (MRT) for preventing mitochondrial diseases.
Slide 10: Conclusion
Summary: Extrachromosomal inheritance involves the transmission of genetic material outside the nucleus and plays a crucial role in genetics, medicine, and biotechnology.
Future Directions: Continued research and technological advancements hold promise for new treatments and applications.
Slide 11: Questions and Discussion
Invite Audience: Open the floor for any questions or further discussion on the topic.
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This is the Most Detailed Image of Uranus You Will Ever See.pdf
1. This is the Most Detailed Image of Uranus You
Will Ever See, Thanks to James Webb
Telescope
The James Webb Telescope, NASA’s newest and most powerful telescope, has
captured the most detailed image of Uranus ever seen. The image is a testament to
the incredible capabilities of the telescope, which was launched in December 2021.
The image, which was taken in March 2023, shows Uranus in incredible detail.
The planet’s blue-green atmosphere is clearly visible, as are the planet’s rings and
several of its moons. The image is so detailed that scientists can study individual
features on the planet’s surface, such as storms and clouds.
According to NASA, the image is a “game-changer” for planetary science. “The
James Webb Telescope has given us an unprecedented view of Uranus,” said Dr.
Jane Rigby, James Webb Space Telescope Project Scientist. “This image is a
testament to the incredible capabilities of the telescope and the hard work of
everyone who has worked on the mission.”
The image was captured using the telescope’s Near Infrared Camera (NIRCam),
which is one of the four scientific instruments on board the spacecraft. The
NIRCam is capable of capturing images in the near-infrared region of the
2. electromagnetic spectrum, which allows it to see through the planet’s thick
atmosphere.
What lies ahead?
Scientists hope that the image will help them to better understand the planet’s
weather patterns and atmospheric composition. Uranus is a particularly interesting
planet because it is tilted on its side, which means that its poles are located where
the equator is on other planets. This unique orientation causes the planet’s weather
patterns to be particularly chaotic, with storms that can last for years.
“Uranus is one of the most mysterious planets in our solar system,” said Dr. Rigby.
“We know very little about it, and this image will help us to unlock some of its
secrets.”
The James Webb Telescope is a joint project between NASA, the European Space
Agency (ESA), and the Canadian Space Agency (CSA). The telescope is located at
the second Lagrange point (L2), which is located about 1.5 million kilometers
(930,000 miles) from Earth.
Uranus in 4K! James Webb Space Telescope sees the planet, its rings and moons
The telescope’s main objective is to study the early universe, but it is also capable
of studying our own solar system in incredible detail. In addition to Uranus, the
telescope has already captured stunning images of other planets, including Jupiter
and Saturn.
The James Webb Telescope is expected to revolutionize our understanding of the
universe and our place in it. With its incredible capabilities, scientists hope to
uncover new mysteries about the cosmos and answer some of the most
fundamental questions about the nature of our universe.
The image of Uranus is just the beginning of what promises to be an exciting era of
discovery for the James Webb Telescope. With its incredible sensitivity and
resolution, the telescope is poised to make some of the most important scientific
discoveries of our time.