Ranger 7 Snaps the Moon

Ranger 7 Snaps the Moon

A black and white image of the Moon's surface. Many craters of different sizes can be seen. There is a grid of marks overlaid on the photo.
NASA/JPL

On July 31, 1964, the Ranger 7 spacecraft took this photo, the first image of the Moon taken by a United States spacecraft. 17 minutes later, it crashed into the Moon on the northern rim of the Sea of Clouds as intended. The 4,316 images sent back helped identify safe Moon landing sites for Apollo astronauts.

Until 1964, no closeup photographs of the lunar surface existed. Ranger 7 returned the first high resolution close-up photographs of the lunar surface. The mission marked a turning point in America’s lunar exploration program, taking the country one step closer to a human Moon landing.

Learn more about Ranger 7.

Image credit: NASA/JPL

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Monika Luabeya

Tech Today: Remote Sensing Technology Fights Forest Fires

Tech Today: Remote Sensing Technology Fights Forest Fires

3 min read

Preparations for Next Moonwalk Simulations Underway (and Underwater)

NASA’s Ikhana Unmanned Aircraft System (UAS).
NASA used its remotely piloted Ikhana aircraft to test technology it helped develop or recommended to the U.S. Forest Service, including a system to send sensor data to decision makers on the ground in near real time.
Credit: NASA

It’s not easy to predict the path of forest fires—a lot depends on constantly changing factors like wind. But it is crucial to be as accurate as possible because the lives, homes, and businesses of the tens of thousands of people living and working in fire-prone areas depend on the reliability of these predictions. Sensors mounted on airplanes or drones that provide a picture of the fire from above are an important tool, and that’s where NASA comes in. 

In partnership with the U.S. Forest Service, local and state firefighting agencies, and the Bureau of Land Management, NASA plays a pivotal role in battling infernos. The agency’s extensive experience and technical expertise in remote sensing technology have significantly improved the speed and accuracy of information relayed to firefighting decision-makers.

According to Don Sullivan, who specialized in information technology design at the time, the Airborne Science Program at NASA’s Ames Research Center in Silicon Valley, California, was integral to that effort.

In the 1990s, NASA began a project to adapt uncrewed aircraft for environmental research. The researchers at Ames wanted to ensure the technology would be useful to the broadest possible spectrum of potential end users. One concept tested during the project was sending data in real-time to the ground via communications links installed on the aircraft.

That link sent data faster and to multiple recipients at once—not just the team on the fire front line, but also the commanders organizing the teams and decision makers looking at the big picture across the entire region throughout the fire season, explained Sullivan.

For the Forest Service, this was a much-needed upgrade to the original system on their crewed jets: rolling up a printout and later thumb drives with thermal sensor data placed into a plastic tube attached to a parachute and dropped out of the airplane. NASA’s remotely piloted aircraft called Ikhana tested the technology, and it’s still used by the agency to collect data on wildfires.

Since the introduction of this technology, wildfires have gotten bigger, burn hotter, and set new records every year. But in California in 2008, this technology helped fight what was then the worst fire season on record. A NASA test flight using a data downlink system provided updated information to the incident managers that was crucial in determining where to send firefighting resources and whether a full evacuation of the town of Paradise was needed.

Without that timely information, said Sullivan, “there likely would have been injuries and certainly property damage that was worse than it turned out to be.”

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Jul 31, 2024

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Andrew Wagner

What’s Up: August 2024 Skywatching Tips from NASA

What’s Up: August 2024 Skywatching Tips from NASA

6 min read

What’s Up: August 2024 Skywatching Tips from NASA

What to look for:

A planetary rendezvous, meteors, and a “star forge”!

Two planets meet for a super close conjunction, the Perseid meteor shower peaks, and look for the Lagoon Nebula – a stellar nursery in Sagittarius.

Highlights

  • August 4 – New moon
  • August 11 – The Perseid meteor shower peaks overnight tonight! Provided you have clear skies, viewing conditions will be favorable this year, as the Moon sets by around 11:30 pm local time. Meteor activity picks up from then until dawn.
  • August 14 Jupiter and Mars have an extremely close pair-up called a conjunction this morning. They’ll appear just a third of a degree apart, which is less than the width of the full Moon. Find them in the eastern sky in the couple of hours before sunrise.
  • August 19 Full moon
  • August 20 – The Moon chases Saturn across the sky tonight. The pair rise in the east shortly after dark, and trek toward the west together until dawn.
  • August 27 –  This morning the crescent moon joins Mars and Jupiter to form a captivating trio. Look for them in the east in the hour or so before sunrise.
  • All month – You can use binoculars or a telescope to observe the Lagoon Nebula all month in the first few hours after dark. It’s located in the constellation Sagittarius near the star pattern known as “The Teapot.” Similar in size and brightness to the Orion Nebula, it’s a cauldron of star formation located about 4,000 light years away.
An illustrated sky chart shows the morning sky facing eastward, 1 hour before sunrise on August 14, 2024. Jupiter and Mars are pictured as small white dots very close together near center. Jupiter appears larger than Mars, indicating its greater brightness. Several other bright stars appear nearby in the sky.
Sky chart showing the conjunction of Mars and Jupiter in the morning of August 14.
NASA/JPL-Caltech

Transcript

What’s Up for August? A super close meetup of Jupiter and Mars, the outlook for the Perseid meteors, and see a stellar nursery in the Lagoon Nebula.

During the month of August, the Red Planet, Mars, speeds past our solar system’s largest planet, Jupiter, in the a.m. sky. They have an extremely close pair-up, called a conjunction, on August 14th, when they’ll appear just a third of a degree apart, which is less than the width of the full Moon.

The view from NASA’s Eyes on the Solar System reveals the two planets arranged along the same line of sight, which is why they appear so close together in the sky at this time.

Mars quickly pulls away from Jupiter over the following mornings, but on the 27th, the crescent moon joins the two planets to form a captivating trio in the morning sky.

An illustrated sky chart shows the morning sky facing eastward, 1 hour before sunrise on August 17, 2024. The crescent Moon is at center, surrounded by several bright stars and planets. Jupiter and Mars are pictured as small white dots, with Jupiter immediately to the right of the Moon. Mars is directly below the Moon. Jupiter appears larger than Mars, indicating its greater brightness.
Sky chart showing a planetary trio of the crescent moon, Jupiter, and Mars on the morning of August 27.
NASA/JPL-Caltech

Saturn flies solo most of the month on the opposite side of the sky, though the Moon chases close behind the Ringed Planet on August 20th. The pair rise shortly after dark, and trek toward the west together until dawn.

The warm summer nights of August in the Northern Hemisphere make the Perseid meteor shower an annual favorite. This year’s peak night for Perseids comes on August 11th, and into morning twilight on the 12th. Provided you have clear skies, viewing conditions will be favorable this year, as the Moon sets by around 11:30 pm local time.

Meteor activity picks up from then until dawn. From darker viewing locations, meteor counts of 50 to 75 per hour are pretty normal at the peak.

The Perseids appear to originate from a place in the sky that rises in the northeast, so lie back and face roughly in that direction, but try to take in as much of the sky as you can in your view, as meteors can appear all over.

All the stars in the sky share a common origin in giant clouds of gas and dust called nebulas. And one such stellar nursery, the Lagoon Nebula, is well placed to observe in the August sky.

Image Before/After

The Lagoon Nebula will feel familiar to you if you’ve ever observed the Orion Nebula – with the latter being just a bit brighter. Being about three times wider than the full moon, it’s still relatively easy to find, even under suburban skies, with binoculars or a small telescope.

The Lagoon Nebula is located in the constellation Sagittarius, which regular skywatchers will know is synonymous with the faintly glowing band of the Milky Way core. You’ll find it here, just above the top of the star pattern known as the Teapot.

The nebula is located about 4,000 light years away. Its oblong structure is about 100 light years long by about 50 light years wide. It’s a cauldron of intense star forming activity, with many young stars blazing brightly, causing the surrounding gas to glow. That glow is faint and colorless when peering at the Lagoon Nebula through binoculars, but long-exposure photos reveal its colorful nature. The bright stars are also sculpting the nebula, creating voids and turbulent knots and streamers of gas. The nebula gets its name from one of these dense, dark clouds that stretches across its middle, looking something like a watery lagoon.

The Lagoon Nebula appears high overhead in August for those in the Southern Hemisphere, and quite low for those at higher northern latitudes, but it’s visible throughout the lower 49 United States. If you can locate the stars in the Teapot, you should be able to observe the nebula too. To find it, follow a line toward the west, twice the distance from the top of the Teapot’s handle to the top of its lid.

Nebulas can be challenging to observe, even with a telescope. But with its large size and relative brightness, the Lagoon Nebula offers a great opportunity to see one of these star forges for yourself in August.

Here are the phases of the Moon for August.

The main phases of the Moon are illustrated in a horizontal row, with the new moon on August 4th, first quarter on August 12th, full moon on August 19th, and the third quarter moon on August 26th
The phases of the Moon for August 2024.

Stay up to date on NASA’s missions exploring the solar system and beyond at science.nasa.gov. I’m Preston Dyches from NASA’s Jet Propulsion Laboratory, and that’s What’s Up for this month.

Skywatching Resources

About the ‘What’s Up’ Production Team

“What’s Up” is NASA’s longest running web video series. It had its first episode in April 2007 with original host Jane Houston Jones. Today, Preston Dyches, Christopher Harris, and Lisa Poje are the space enthusiasts who produce this monthly video series at NASA’s Jet Propulsion Laboratory. Additional astronomy subject matter guidance is provided by JPL’s Bill Dunford, Lyle Tavernier, and the Night Sky Network’s Kat Troche.

The What’s Up team celebrates the memory of Gary Spiers, who provided astronomy observing guidance for the series for many years.

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NASA Public Engagement Specialist Loves to Inspire Kids with STEM

NASA Public Engagement Specialist Loves to Inspire Kids with STEM

A group of students, seated on the ground, face the front of the room and listen while Jonas Dino talks to them.
Jonas Dino speaks to students at the Cezar Chavez Middle School in Union City, California, as part of a NASA-sponsored traveling space museum tour of Bay Area schools.

Careers at NASA were not on his radar growing up. But Jonas Dino, public engagement specialist at NASA’s Ames Research Center in California’s Silicon Valley, ended up with his perfect job that involves connecting people with NASA.

One of the best parts of his job is to learn first-hand about NASA’s cutting-edge research and translate these concepts to the next generation.

“I’m excited about what NASA does and where we are going,” said Dino, “As an extrovert, I love interacting with the public, especially little kids.”

When speaking to younger children, Dino often kneels, to get to their level. With the future of aeronautics and space exploration in mind, he has a message for them: ‘NASA needs you.’ 

“They love space and think it is very cool, but many don’t think they could ever work at NASA,” said Dino. “I want to help them see: anything is possible.”

A person rolling a handcart of boxes off the ramp of a small cargo trailer.
NASA’s Ames Research Center in California’s Silicon Valley takes NASA’s message on the road to area schools and public events with its public engagement trailer. Jonas Dino is shown unloading the trailer for an event.
NASA/Dominic Hart

A path to NASA he didn’t know existed

A first-generation immigrant from the Philippines, Dino’s academic start focused on studying life sciences. 

“As a Filipino, you’re encouraged to go into the medical field as a career,” said Dino. 

After joining the Marine Corps, Reserve, he returned home to study biology at San Jose State University (SJSU). After doing poorly at organic chemistry, he took his next “logical” step and switched his major to nursing. After working in the field, he realized that was not for him either. Luckily, he had been taking psychology classes, following his interests, and could graduate with a psychology degree by only taking two more classes.

After three changes in major and just getting ready to graduate, Dino was hit by a car. His injury and subsequent recovery gave him time to evaluate what he wanted to do with his life. 

“I was pretty good at talking to people and teaching,” said Dino. “Maybe I could to that as a job?”  

Dino started his teaching career at James Logan – the same high school he graduated from in 1985. He eventually ran for and was elected as a trustee for the New Haven Unified School District in the San Francisco Bay Area. Unfortunately, to take that seat, he could not be a teacher in the district – a conflict of interest. Suddenly needing a job, he found the internship book at SJSU where he was getting his master’s degree. Soon, he was evaluating opportunities: a high-tech company or NASA?

“It was during the dotcom boom and my family strongly encouraged me to take the high-tech internship,” said Dino. “I took the internship at NASA Ames and have never regretted my decision.”

Working as a communicator, Dino has covered the gamut of NASA projects from aeronautics to space missions, including a lunar mission, LCROSS, that helped confirm the presence of water on the Moon. 

His favorite part of his job is STEM engagement. 

“There is nothing like seeing a kid’s eyes get larger, or that proverbial light-bulb-turn-on-above-their-heads when you teach them something new,” said Dino. “When you see kids are hungry for science, you need to feed it.”

He did serve his community on the school board for four terms – 16 years. Now, he serves as an advocate for the NASA Ames workforce as president of the Ames Federal Employees Union.

“NASA is a great place to work, it has been a blast, for nearly 24 years.”

Science data from NASA’s Lunar Crater Observation and Sensing Satellite (LCROSS) mission’s 2009 lunar impact helped confirm the presence of water on the Moon. Here, LCROSS project manager, Daniel Andrews (left), points to a model of the LCROSS spacecraft integrated with the Atlas V Centaur upper stage rocket. Jonas Dino (right) led public communications for the mission at NASA Ames.
NASA/Eric James

Nudging an asteroid

A little push in the right direction, even incidental, can have a huge effect on your trajectory – and thus where you end up – if it happens early on. This is true both for rogue rocks, on the loose in the solar system, and for people too.

“When I was a kid, I took apart everything because I wanted to know what’s inside and how everything worked,” said Dino. “Looking back, I should have been an engineer.” 

“I have two children, a son and a daughter,” said Dino. “I’m encouraging my daughter to go into STEM; we need more young women in STEM careers but too many girls are pushed away from this choice by the time they are in middle school. I also want to encourage Filipino kids to make their own career choices and maybe even to come work for NASA.”

To help pursue these goals, Dino started a memorial scholarship in honor of his father for Filipino students going into STEM fields. He handed out the inaugural scholarship for this last May. 

There is nothing like seeing a kid’s eyes get larger, or that proverbial light-bulb-turn-on-above-their-heads when you teach them something new.

Jonas Dino

Jonas Dino

Public engagement specialist, president of the Ames Federal Employees Union

NASA never stops for Dino. Whether at work or on his free time, he’s always talking about NASA. While dishing out samples of his Filipino adobo recipe during a recent adobo-cooking contest – according to Dino, every Filipino family has their own recipe for this dish – he also handed out NASA knowledge. He won second place.

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Gianine Figliozzi

NASA’s First-Ever Quantum Memory Made at Glenn Research Center

NASA’s First-Ever Quantum Memory Made at Glenn Research Center

3 min read

Preparations for Next Moonwalk Simulations Underway (and Underwater)

Five engineers inspect laboratory equipment. The quantum memory the equipment holds is shown on a digital screen. Engineers wear eye protection and point at the equipment.
NASA Glenn Research Center’s quantum team stands with new quantum memory laboratory equipment.
Credit: NASA/Jef Janis

Bringing bright minds together has once again proven to be the key to unlocking the mysteries of the universe. Researchers developed technology that will store information within a cloud of atoms.

Together with Infleqtion Inc., researchers at NASA’s Glenn Research Center in Cleveland produced NASA’s first-ever quantum memory. This technology is NASA’s first step in creating a large-scale quantum network, which could lead to more secure space communications and, eventually, new scientific discoveries.

Quantum memory stores information encoded in matter or on photons — which are single particles of light ­— for a certain amount of time. The memory developed in partnership with Glenn stores information in a cloud of laser-cooled atoms and later releases it as photons.

On Earth, many quantum networks use fiber optic infrastructure. However, quantum information degrades after just a few dozen miles, greatly limiting the size of any future network. Quantum memory will help enable the expansion of quantum networks to send information over longer distances.

Credit: NASA/Steve Logan

“If we’re able to put quantum memory into space, then we could use free space transmission and further those distances to spanning the country,” said Dr. Adam Fallon, quantum scientist at NASA Glenn.

A large-scale quantum network would process information faster, provide better information security, and improve the accuracy of how we explore the world compared to a traditional computer network.

“So, quantum may provide NASA the ability to explore or sense things in space that we could not do otherwise classically,” said Evan Katz, quantum scientist at NASA Glenn. “While quantum networks are a little further down the road, in the here-and-now, we are excited to have received this memory through an SBIR effort with Infleqtion Inc. so that we can understand more about how quantum memory impacts quantum networks.”

A small cloud of light is illuminated by a red laser. It appears hazy in a cube.
A cloud of rubidium atoms is illuminated by a red laser. Quantum memory stores information that is encoded in matter or on photons for a certain amount of time.
Credit: NASA/Jef Janis

Glenn’s quantum team intends to study and refine the new technology and then plug what they’ve learned into models to simulate how it would work in a large-scale quantum network. From there, they plan to provide feedback to NASA, academia, and industry so all parties can come closer to their goal of developing a quantum network.

Infleqtion Inc. created the quantum memory through the NASA Small Business Innovation Research/Small Business Technology Transfer (SBIR/STTR) Program, which provides funding for research, development, and demonstration of innovative technologies that fulfill the needs of NASA and the commercial marketplace.

Learn more about the SBIR/STTR program.

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Kelly M. Matter