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How Local Photographer Captured These Stunning Images Of Comet NEOWISE In Skies Over Peterborough – PTBOCanada

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Comet NEOWISE has been lighting up the early morning skies around the globe this month and Peterborough photographer Jay Callaghan was up bright and early on Thursday (July 9th) to capture it.

Currently NEOWISE is roughly 141 million kilometres from Earth and is gradually making its way closer to our planet as each day passes. The best time locally to see the comet has been in the early morning hours before sunrise, so in the wee hours, around 3:30 a.m., Jay was out capturing stunning images from the top of Armour Hill of the comet as well a great shot over Little Lake with the planet Venus to the right.


View from Armour Hill

View from Armour Hill

“Locating the comet can be a bit of a challenge but with use of websites dedicated to the comet, such as The Sky Live as well as Sky Map app for Android phones, I was able to pinpoint when and where the comet would be when it rose at 2:59 a.m. this morning,” Callaghan tells PTBOCanada.

”Once the location is known, it was easy to find the comet and even see it with the naked eye,” he adds. “The humidity on the horizon made it a bit difficult to see at first but the camera had no issue capturing it.”


View from Armour HillView from Armour Hill

View from Armour Hill


View from Armour HillView from Armour Hill

View from Armour Hill

Callaghan, known for his beautiful pictures of the outdoors and wildlife in the area and for tweeting—and stormchasing—about the weather locally, used a Canon 80D and Sigma 18-35 and 70-200 lens to take the comet photos.

“The shots ranged in exposure times of anywhere from 1-6 seconds depending on the amount of light as well as other settings on the camera (ISO, aperture, etc),” he tells PTBOCanada.


View from Little LakeView from Little Lake

View from Little Lake

For those interested in viewing the comet, here’s what Callaghan recommends:

-> As the comet gets closer to earth, the chances of seeing it after sunset will increase but unfortunately, at this time, it appears that the magnitude (or brightness) of the comet looks to be getting lower so the sooner you can get out to see it the better. 

-> Make sure to visit the The Sky Live website, enter in your location and keep an eye on the rise and set times of the comet, as well as what constellation it will be residing in, for a chance to catch a glimpse.

-> Your best bet is to get away from city lights and don’t forget the binoculars and camera. 

-> The comet will make its closest approach to Earth on July 23rd when it will be approximately 103 million kilometres away and then will slowly disappear from our view.

Engage with us on social media on Twitter, Instagram and Facebook. Write to us at tips@ptbocanada.com. Sign up for PTBOBuzz newsletter here.

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ATLANTIC SKIES: Young astronomers and the Perseid meteors – TheChronicleHerald.ca

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If you are intrigued by the concept of space travel and exploration, no doubt you watched or read about the launch of NASA’s Mars 2020 Perseverance spacecraft on July 30. NASA’s 29th mission to Mars (22 of which have been successful), Perseverance is slated to arrive at the Red Planet in February 2021, after a 7-month, 480-million-kilometre journey, to continue NASA’s ongoing exploration of Mars in preparation for its ultimate goal: landing humans on the planet’s surface in the next decade or two.

I remember, as a very young child (I was 5 at the time), my mother telling me that one day, when I was grown up, people would walk on the Moon. Sure enough, in 1969, when I was 21, Neil Armstrong and Buzz Aldrin stepped onto the Moon’s surface from the Apollo 11 spacecraft. Perhaps my mother was prophetic to foresee this event, or perhaps, as I suspect, she was just intuitive enough to understand that humankind’s destiny ultimately lies out there, beyond Earth, among the stars. 

Perhaps there is some component of the human genome that, like that which causes some animals to migrate, is responsible for humankind’s celestial wanderlust. Having explored and settled most every corner of our planet, perhaps this innate instinct to move onward is now driving us to consider migrating outwards from Earth to distant worlds. 


Perhaps there is some component of the human genome that, like that which causes some animals to migrate, is responsible for humankind’s celestial wanderlust.


Whatever the genesis of my mother’s statement, it ignited in me a burning desire and an insatiable curiosity to know more about what was “out there”. It is a desire and curiosity that has lasted my whole life, and will, no doubt, remain with me until I draw my final breath. Without waxing too poetic, I like to think that, even then, some part of me will continue, as Star Trek’s Captain James T. Kirk states, “to explore strange new worlds” across the eternity of outer space.

My granddaughter, Scarlet, has a fascination with outer space, constantly asking me what lies beyond the planets, our solar system, and the Milky Way Galaxy. Of course, it is a curiosity that I readily and happily feed, answering her questions (in greater detail and depth as she grows older), encouraging her to read my astronomy books (and columns), to pick out her own astronomy books (“space books” as she calls them) at the library, or to go on-line and look up the information herself. 

It is both amazing and gratifying to not only watch her search for the answers by herself, but also to watch where those searches take her in terms of the array of astronomy topics she delves into. As her knowledge base expands, so does the distance she travels outward from Earth; she is currently focused on the Oort Cloud, the massive sphere of frozen ice bodies out beyond Pluto. 

Her plan (at 8 years old) is to be the first woman astronaut to walk on Mars, or, should another woman beat her to that prize, to be the first woman to pilot a spaceship to another planet in a distant star system. “Attention, this is Captain Scarlet speaking.”

If you have children and/or grandchildren who show an interest in astronomy, I urge you to encourage that interest. Just as my mother’s insightful statement fostered my abiding love of and curiosity about outer space, your encouragement and support (and, perhaps, shared interest) may well result in your child, grandchild or great-grandchild one day walking on another planet or moon, or travelling out into space as a crew member on a fact-finding exploration. Perhaps, he or she may even be part of my granddaughter’s crew.

One of the ways to foster an interest in outer space in your children/grandchildren is to get them outside to watch a meteor shower. Children of any age love to watch for “shooting stars”, and the warm summer evenings of August are just the time to afford them that opportunity. The annual Perseid meteor shower (radiant in Perseus – the Prince) peaks during the pre-dawn hours of Aug. 11 – 13. 

Though light from the Last Quarter Moon will, after it has risen, somewhat reduce the overall number of meteors observable on those dates, the Perseids are known for their large number of extremely bright meteors, many of which, in the absence of cloud cover, will still be highly visible. 

Earlier in the evening, you may see some Perseid “earthgrazers” – colourful meteors that travel slowly and horizontally across the pre-midnight sky, when the meteor shower’s radiant (apparent point of origin in the sky) is just below or just above the eastern horizon. While the main peak of most meteor showers usually occurs after midnight, starting to watch for the Perseids during the mid-to-late evening period (perhaps more conducive to maintaining the interest of your young, sleepy-eyed observers), before the Moon rises, could significantly increase the total number of meteors seen. 

Go to this moonrise and moonset calculator to find your local moonrise/set times. Also, watching for Perseids on the nights/mornings after the noted peak dates might produce a large number of viewed meteors. As the week progresses, there will be less moonlight to contend with, as the Moon phase changes from Last Quarter towards a gibbous phase. Finally, the well-known variableness of meteor showers, even a famous one such as the Perseids, sometimes brings surprisingly large numbers of meteors in the days following designated peak dates; it is always worth a try, particularly if you are clouded out during the predicted peak period.

Heading towards superior conjunction with the Sun on Aug. 17, Mercury is now too close to the Sun to be observed. Venus (mag. -4.32) is that wonderfully brilliant “morning star” visible in the eastern, pre-dawn sky. Rising in the east around 2:30 a.m., Venus will be observable 31 degrees above the eastern horizon until dawn breaks around 5:45 a.m. 

Mars (mag. -1.3) is visible about 7 degrees above the eastern horizon around 11:45 p.m., reaching a height of 48 degrees above the southern horizon before fading in the dawn twilight. Jupiter and Saturn are both visible in the southeast evening sky by about 9 p.m. Jupiter (mag. -2.68) reaches its highest point (21 degrees) in the southern sky shortly after 11 p.m., remaining observable until about 2:30 a.m. when it sinks below 7 degrees above the southwest horizon. Saturn (mag. +0.2) hits its highest point in the southern sky shortly before midnight, disappearing from view around 3 a.m. when it dips below 10 degrees above the southwest horizon.

Until next week, clear skies.

Events:

  • Aug. 11 – Last Quarter Moon
  • Aug. 11-13 – Perseid meteor shower peak
  • Aug. 13 – Venus at greatest western elongation from Sun

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SpaceX launches 57 more Starlink satellites, lands rocket at sea – Space.com

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CAPE CANAVERAL, Fla. — SpaceX successfully launched dozens of Starlink internet satellites and two small Earth-imaging satellites into orbit Friday (Aug. 7) in the second of what’s expected to be a series of Starlink rideshare missions.

A two-stage Falcon 9 rocket carrying 57 SpaceX Starlink satellites, along with two BlackSky Global Earth-observation satellites, lifted off at 1:12 a.m. EDT (0512 GMT) from Pad 39A here at NASA’s Kennedy Space Center.

It was the fifth launch for this Falcon 9’s first stage. And the booster pulled off yet another landing this morning, settling softly onto the deck of SpaceX’s “Of Course I Still Love You” droneship in the Atlantic Ocean about eight minutes after liftoff.

Related: SpaceX’s Starlink satellite megaconstellation launches in photos

This is SpaceX’s 10th Starlink mission since 2019, and the company’s 12th overall mission for 2020. SpaceX has been relying on its fleet of used, flight-proven boosters to sustain a rapid launch cadence. The company has had a stellar summer, with the launch and landing of two NASA astronauts on the Demo-2 mission to the International Space Station — a first for a private company — and isn’t slowing down anytime soon. 

The third time was the charm for SpaceX as its Falcon 9 rocket roared to life and lit up the night sky over Florida’s Space Coast. Nighttime launches are always a stunning spectacle, and this one did not disappoint. The rumble from the rocket’s nine engines seemed especially loud tonight and could still be heard even after the rocket disappeared from view. 

Hitchhiking satellites

Tucked inside the Falcon 9’s nose cone this morning was a stack of 57 internet-beaming satellites. Part of SpaceX’s Starlink megaconstellation, the satellites will join hundreds already in orbit. To date, the company has launched 595 Starlink satellites as it works to complete the huge constellation. 

SpaceX founder and CEO Elon Musk has said that SpaceX needs between 400 and 800 Starlink satellites in orbit to begin to roll out minimal coverage. As that goal draws nearer, SpaceX has been teasing the arrival of a beta program, which will help the company test the service for eventual worldwide consumption. 

SpaceX is also taking other steps to make Starlink service a reality. For example, the company has gained approval from the U.S. Federal Communications Commission for up to one million user terminals

Musk has said that he wants the terminals to be easy to operate. Resembling a “UFO on a stick,” as Musk calls it, each terminal is equipped with actuators to ensure that it points at the sky at all times. All a user has to do is plug it in and point it at the sky. 

Hitching a ride with the Starlink stack today were two small, Earth-observing satellites for BlackSky. The rideshare was arranged by another company called Spaceflight, which finds rides to space for smaller satellites. SpaceX also has its own rideshare program, which books small satellites directly instead of going through a third-party service. (Three small Earth-observing satellites built by San Francisco-based company Planet flew on the previous Starlink mission last month, in a deal booked directly through SpaceX.)

Related: What’s that in the sky? It’s a SpaceX rocket, but it sure doesn’t look like it

Satellite sunshades

The Starlink satellites on this mission are a bit different than the ones that have launched previously. That’s because they’re outfitted with a special visor that will help reduce their apparent brightness. 

The sunshade, as SpaceX is calling it, is a deployable visor designed to prevent sunlight from reflecting off the shiniest parts of the satellites, such as the antennas. The company — as well as astronomers and dark-sky advocates around the world — are hoping to decrease the Starlink fleet’s overall brightness. This will enable them to appear as dark as possible in the night sky, thus minimizing their impact on night sky observations. 

When the very first set of Starlink satellites launched, it caught the astronomy community off guard as the satellites appeared brighter in the sky than SpaceX intended. Scientists around the globe voiced their disapproval, concerned that the bright satellites would inhibit scientific observations. 

A previous Starlink launch back in June featured one satellite outfitted with the experimental visor; today’s mission is the first in which all 57 sport it. 

Rocket reuse

The first stage of the Falcon 9 featured in today’s mission is now a five-time flier, as it previously launched the Demo-1 mission in 2019, which sent an uncrewed Crew Dragon spacecraft to the International Space Station; a trio of Earth-observing satellites for Canada; and two Starlink missions this year. 

It is the third Falcon 9 booster to launch five times, and the second to launch and land successfully five times. The first booster to launch five times, designated B1048 by SpaceX, experienced an inflight anomaly. There was some residual cleaner trapped inside an engine part, which resulted in the booster missing its intended landing on the drone ship. (The booster did deliver the payload to orbit with no issues, however.) 

SpaceX subsequently changed its refurbishment techniques and has now launched and recovered two different boosters five times. Each of these should fly again soon, especially if SpaceX is going to keep up its rapid launch cadence. 

Related: See the evolution of SpaceX’s rockets in pictures

The Falcon 9’s first stage successfully landed on SpaceX’s drone ship “Of Course I Still Love You” approximately eight minutes after liftoff. To do so, the booster separated from its upper stage and conducted a series of orbital ballet moves, reorienting itself for landing. The rocket conducted a series of three engine burns to slow itself enough to gently touch down on the deck of a floating platform. 

The massive drone ship, stationed out in the Atlantic Ocean, is one of two vessels that SpaceX uses to catch its returning boosters. To date, the company has successfully recovered 56 first-stage boosters. Once they’re back in Florida’s Port Canaveral, the boosters are transported back to SpaceX facilities, where they’re carefully inspected and repurposed to fly again. 

The current iteration of the Falcon 9 was finalized in 2018. Known as the Block 5, it features 1.7 million pounds of thrust as well as some other upgrades that make it capable of rapid reuse. SpaceX boasts that each of these boosters can fly as many as 10 times with minor refurbishments in between, and as many as 100 times before retirement. (To date, SpaceX has launched and landed the same booster a maximum of five times.) 

Rapid reuse, coupled with the fact the company now has two drone ships to recover its first-stage boosters, means that the company can launch more frequently. SpaceX launched a total of four times between the end of May and the end of June, and it plans to conduct a number of launches through the end of 2020.

Related: SpaceX launches 60 Starlink satellites and lands rocket in dazzling nighttime liftoff 

Falling fairings

Ahead of today’s launch, SpaceX deployed its twin fairing catchers, GO Ms. Tree and GO Miss Chief. These two boats act as giant, mobile catcher’s mitts, snagging payload fairings in their attached nets as they fall back down to Earth. Whether or not they’re able to make a catch depends on many factors, including the weather. 

To facilitate reuse, SpaceX has equipped its payload fairings (also known as the rocket nose cones) with parachutes and software that guides them to the recovery zone. If Ms. Tree or Ms. Chief are unable to catch the fairings, which come back to Earth in two pieces, the boats can scoop them up out of the water and carry them back to port. 

Once back in Port Canaveral, the fairings (along with the booster) are refurbished and reused, so long as they’re intact. SpaceX has reflown fairings several times, most of which were retrieved from the ocean and refurbished. However, on a recent mission, the dynamic boat duo made its first double catch, snagging both falling fairings.

SpaceX attempted to catch the fairings today but did not succeed, company launch commentators said about 48 minutes after liftoff.

Today’s launch was the third attempt at getting this particular mission off the ground. The launch was originally scheduled to blast off in mid-June, but was delayed due to the need for extra rocket checks. Another attempt on July 8 was called off due to poor weather at the launch site. 

Follow Amy Thompson on Twitter @astrogingersnap. Follow us on Twitter @Spacedotcom or Facebook.

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ATLANTIC SKIES: Young astronomers and the Perseid meteors – SaltWire Network

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If you are intrigued by the concept of space travel and exploration, no doubt you watched or read about the launch of NASA’s Mars 2020 Perseverance spacecraft on July 30. NASA’s 29th mission to Mars (22 of which have been successful), Perseverance is slated to arrive at the Red Planet in February 2021, after a 7-month, 480-million-kilometre journey, to continue NASA’s ongoing exploration of Mars in preparation for its ultimate goal: landing humans on the planet’s surface in the next decade or two.

I remember, as a very young child (I was 5 at the time), my mother telling me that one day, when I was grown up, people would walk on the Moon. Sure enough, in 1969, when I was 21, Neil Armstrong and Buzz Aldrin stepped onto the Moon’s surface from the Apollo 11 spacecraft. Perhaps my mother was prophetic to foresee this event, or perhaps, as I suspect, she was just intuitive enough to understand that humankind’s destiny ultimately lies out there, beyond Earth, among the stars. 

Perhaps there is some component of the human genome that, like that which causes some animals to migrate, is responsible for humankind’s celestial wanderlust. Having explored and settled most every corner of our planet, perhaps this innate instinct to move onward is now driving us to consider migrating outwards from Earth to distant worlds. 


Perhaps there is some component of the human genome that, like that which causes some animals to migrate, is responsible for humankind’s celestial wanderlust.


Whatever the genesis of my mother’s statement, it ignited in me a burning desire and an insatiable curiosity to know more about what was “out there”. It is a desire and curiosity that has lasted my whole life, and will, no doubt, remain with me until I draw my final breath. Without waxing too poetic, I like to think that, even then, some part of me will continue, as Star Trek’s Captain James T. Kirk states, “to explore strange new worlds” across the eternity of outer space.

My granddaughter, Scarlet, has a fascination with outer space, constantly asking me what lies beyond the planets, our solar system, and the Milky Way Galaxy. Of course, it is a curiosity that I readily and happily feed, answering her questions (in greater detail and depth as she grows older), encouraging her to read my astronomy books (and columns), to pick out her own astronomy books (“space books” as she calls them) at the library, or to go on-line and look up the information herself. 

It is both amazing and gratifying to not only watch her search for the answers by herself, but also to watch where those searches take her in terms of the array of astronomy topics she delves into. As her knowledge base expands, so does the distance she travels outward from Earth; she is currently focused on the Oort Cloud, the massive sphere of frozen ice bodies out beyond Pluto. 

Her plan (at 8 years old) is to be the first woman astronaut to walk on Mars, or, should another woman beat her to that prize, to be the first woman to pilot a spaceship to another planet in a distant star system. “Attention, this is Captain Scarlet speaking.”

If you have children and/or grandchildren who show an interest in astronomy, I urge you to encourage that interest. Just as my mother’s insightful statement fostered my abiding love of and curiosity about outer space, your encouragement and support (and, perhaps, shared interest) may well result in your child, grandchild or great-grandchild one day walking on another planet or moon, or travelling out into space as a crew member on a fact-finding exploration. Perhaps, he or she may even be part of my granddaughter’s crew.

One of the ways to foster an interest in outer space in your children/grandchildren is to get them outside to watch a meteor shower. Children of any age love to watch for “shooting stars”, and the warm summer evenings of August are just the time to afford them that opportunity. The annual Perseid meteor shower (radiant in Perseus – the Prince) peaks during the pre-dawn hours of Aug. 11 – 13. 

Though light from the Last Quarter Moon will, after it has risen, somewhat reduce the overall number of meteors observable on those dates, the Perseids are known for their large number of extremely bright meteors, many of which, in the absence of cloud cover, will still be highly visible. 

Earlier in the evening, you may see some Perseid “earthgrazers” – colourful meteors that travel slowly and horizontally across the pre-midnight sky, when the meteor shower’s radiant (apparent point of origin in the sky) is just below or just above the eastern horizon. While the main peak of most meteor showers usually occurs after midnight, starting to watch for the Perseids during the mid-to-late evening period (perhaps more conducive to maintaining the interest of your young, sleepy-eyed observers), before the Moon rises, could significantly increase the total number of meteors seen. 

Go to this moonrise and moonset calculator to find your local moonrise/set times. Also, watching for Perseids on the nights/mornings after the noted peak dates might produce a large number of viewed meteors. As the week progresses, there will be less moonlight to contend with, as the Moon phase changes from Last Quarter towards a gibbous phase. Finally, the well-known variableness of meteor showers, even a famous one such as the Perseids, sometimes brings surprisingly large numbers of meteors in the days following designated peak dates; it is always worth a try, particularly if you are clouded out during the predicted peak period.

Heading towards superior conjunction with the Sun on Aug. 17, Mercury is now too close to the Sun to be observed. Venus (mag. -4.32) is that wonderfully brilliant “morning star” visible in the eastern, pre-dawn sky. Rising in the east around 2:30 a.m., Venus will be observable 31 degrees above the eastern horizon until dawn breaks around 5:45 a.m. 

Mars (mag. -1.3) is visible about 7 degrees above the eastern horizon around 11:45 p.m., reaching a height of 48 degrees above the southern horizon before fading in the dawn twilight. Jupiter and Saturn are both visible in the southeast evening sky by about 9 p.m. Jupiter (mag. -2.68) reaches its highest point (21 degrees) in the southern sky shortly after 11 p.m., remaining observable until about 2:30 a.m. when it sinks below 7 degrees above the southwest horizon. Saturn (mag. +0.2) hits its highest point in the southern sky shortly before midnight, disappearing from view around 3 a.m. when it dips below 10 degrees above the southwest horizon.

Until next week, clear skies.

Events:

  • Aug. 11 – Last Quarter Moon
  • Aug. 11-13 – Perseid meteor shower peak
  • Aug. 13 – Venus at greatest western elongation from Sun

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