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This Day In History : April 12

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Soviet cosmonaut Yuri Gagarin becomes the first man in space

On April 12, 1961, aboard the spacecraft Vostok 1, Soviet cosmonaut Yuri Alekseyevich Gagarin becomes the first human being to travel into space. During the flight, the 27-year-old test pilot and industrial technician also became the first man to orbit the planet, a feat accomplished by his space capsule in 89 minutes. Vostok 1 orbited Earth at a maximum altitude of 187 miles and was guided entirely by an automatic control system. The only statement attributed to Gagarin during his one hour and 48 minutes in space was, “Flight is proceeding normally; I am well.”

After his historic feat was announced, the attractive and unassuming Gagarin became an instant worldwide celebrity. He was awarded the Order of Lenin and given the title of Hero of the Soviet Union . Monuments were raised to him across the Soviet Union and streets renamed in his honor.

The triumph of the Soviet space program in putting the first man into space was a great blow to the United States, which had scheduled its first space flight for May 1961. Moreover, Gagarin had orbited Earth, a feat that eluded the U.S. space program until February 1962, when astronaut John Glenn made three orbits in Friendship 7 . By that time, the Soviet Union had already made another leap ahead in the “space race” with the August 1961 flight of cosmonaut Gherman Titov in Vostok 2 . Titov made 17 orbits and spent more than 25 hours in space.

To Soviet propagandists, the Soviet conquest of space was evidence of the supremacy of communism over capitalism. However, to those who worked on the Vostok program and earlier on Sputnik (which launched the first satellite into space in 1957), the successes were attributable chiefly to the brilliance of one man: Sergei Pavlovich Korolev. Because of his controversial past, Chief Designer Korolev was unknown in the West and to all but insiders in the USSR until his death in 1966.

Born in the Ukraine in 1906, Korolev was part of a scientific team that launched the first Soviet liquid-fueled rocket in 1933. In 1938, his military sponsor fell prey to Soviet leader Joseph Stalin’s purges, and Korolev and his colleagues were also put on trial. Convicted of treason and sabotage, Korolev was sentenced to 10 years in a labor camp. The Soviet authorities came to fear German rocket advances, however, and after only a year Korolev was put in charge of a prison design bureau and ordered to continue his rocketry work.

In 1945, Korolev was sent to Germany to learn about the V-2 rocket, which had been used to devastating effect by the Nazis against the British. The Americans had captured the rocket’s designer, Wernher von Braun, who later became head of the U.S. space program, but the Soviets acquired a fair amount of V-2 resources, including rockets, launch facilities, blueprints, and a few German V-2 technicians. By employing this technology and his own considerable engineering talents, by 1954 Korolev had built a rocket that could carry a five-ton nuclear warhead and in 1957 launched the first intercontinental ballistic missile.

That year, Korolev’s plan to launch a satellite into space was approved, and on October 4, 1957, Sputnik 1 was fired into Earth’s orbit. It was the first Soviet victory of the space race, and Korolev, still technically a prisoner, was officially rehabilitated. The Soviet space program under Korolev would go on to numerous space firsts in the late 1950s and early ’60s: first animal in orbit, first large scientific satellite, first man, first woman, first three men, first space walk, first spacecraft to impact the moon, first to orbit the moon, first to impact Venus, and first craft to soft-land on the moon. Throughout this time, Korolev remained anonymous, known only as the “Chief Designer.” His dream of sending cosmonauts to the moon eventually ended in failure, primarily because the Soviet lunar program received just one-tenth the funding allocated to America’s successful Apollo lunar landing program.

Korolev died in 1966. Upon his death, his identity was finally revealed to the world, and he was awarded a burial in the Kremlin wall as a hero of the Soviet Union. Yuri Gagarin was killed in a routine jet-aircraft test flight in 1968. His ashes were also placed in the Kremlin wall.

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6 Surprising Facts About the First Manned Space Mission

Fifty years ago, on April 12, 1961, Russian cosmonaut Yuri Gagarin became the first person in space. The rocket carrying Gagarin's Vostok 1 spacecraft launched from Baikonur Cosmodrome at 6:07 a.m. local time. Reaching unprecedented speeds for manned travel, the spacecraft broke free of the Earth's gravitational pull and entered orbit around the planet, circling once before re-entering the atmosphere and landing back on Soviet soil.

Here are six little-known facts about Gagarin's historic mission.

How long was Gagarin up there?

The total mission lasted just 108 minutes, and the trip once around the Earth at 17,500 mph (most of the way) took less than an hour and a half. In that time, Vostok 1 completed one not-quite-circular orbit, at a maximum altitude of 203 miles, before slowing down to the point that the capsule was pulled back into the atmosphere for ballistic reentry.

What kind of vessel was the Vostok 1?

The Vostok was a spherical capsule, designed to eliminate changes in center of gravity . In that way, the craft could assure comfort for its one-man crew no matter its orientation. What it wasn't designed to do was land with a human still on board.

Unlike later Russian space vehicles, such as the modern Soyuz capsule , Vostok 1 was not outfitted with thrusters to help slow it down as it headed back toward Earth, so Gagarin had to eject before reaching ground, at an altitude of around four miles.

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But since the achievement would not have been regarded as the first successful manned mission to space unless it included a manned landing, the Russians kept this little detail out of official press releases.

What prevented earlier missions from reaching orbit?

In a word: speed. In order to escape Earth's gravitational pull, a ship needs to hit 17,500 mph, or about 5 miles per second. Before the Vostok 1 mission, no rocket was powerful enough to get a vessel going that fast. The Vostok capsule's cannonball shape helped the rocket and spacecraft reach the necessary velocity.

How did they test the Vostok before Gagarin's mission?

A few weeks prior, a prototype of Gagarin's craft, the Vostok 3KA-2, completed one low-Earth orbit carrying a life-size dummy named Ivan Ivanovich and a dog called Zvezdochk. Ivan was sold in a Sotheby's auction in 1993.

Who was Yuri Gagarin?

Yuri Gagarin was a 27-year-old Soviet Air Force pilot when he made his first and only trip into space. Upon his triumphant return he instantly became a national treasure, too valuable to send on such a dangerous mission again.

It's a sad irony, then, that when he was finally scheduled to ascend to the cosmos once more, he died in a crash during a routine training exercise. Gagarin remained a hero after the fall of the Soviet Union; statues of him were preserved while monuments to Russia's Communist leaders were torn down.

Modern cosmonauts still observe a sacred launch-day tradition based on Gagarin's preflight preparations in 1961. On the way to the launch pad, the bus carrying the crew stops so that the members can hop out and " take a leak ," just as Gagarin did the morning he made history.

Launch pad still in use

One lasting legacy of Gagarin's historic spaceflight is the mission's launch pad at Baikonur Cosmodrome. The launch pad is still in use today with the latest crew of the International Space Station blasting off from the site last week on April 5 local time (late April 4 EDT).

Baikonur Cosmodrome is one of several launching sites used by Russia's Federal Space Agency (also known as Roscosmos), but it is not in Russia. The launch site is in Kazakhstan, a country that was part of the Soviet Union during the Cold War but is now a separate nation.

Cosmonauts continued launching from Gagarin's Vostok 1 pad throughout the Cold War, and the tradition continues to this day.

• What Exactly Is a 'Sputnik Moment'?
• Slideshow: 6 Everyday Things that Happen Strangely In Space
• What's It Like to Live In Space?

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The History of Space Exploration

During the time that has passed since the launching of the first artificial satellite in 1957, astronauts have traveled to the moon, probes have explored the solar system, and instruments in space have discovered thousands of planets around other stars.

Earth Science, Astronomy, Social Studies, U.S. History, World History

Apollo 11 Astronauts on Moon

A less belligerent, but no less competitive, part of the Cold War was the space race. The Soviet Union bested its rival at nearly every turn, until the U.S. beat them to the finish line by landing astronauts on the moon.

NASA photograph

We human beings have been venturing into space since October 4, 1957, when the Union of Soviet Socialist Republics (U.S.S.R.) launched Sputnik, the first artificial satellite to orbit Earth. This happened during the period of political hostility between the Soviet Union and the United States known as the Cold War. For several years, the two superpowers had been competing to develop missiles, called intercontinental ballistic missiles (ICBMs), to carry nuclear weapons between continents. In the U.S.S.R., the rocket designer Sergei Korolev had developed the first ICBM, a rocket called the R7, which would begin the space race. This competition came to a head with the launch of Sputnik . Carried atop an R7 rocket, the Sputnik satellite was able to send out beeps from a radio transmitter. After reaching space, Sputnik orbited Earth once every 96 minutes. The radio beeps could be detected on the ground as the satellite passed overhead, so people all around the world knew that it was really in orbit. Realizing that the U.S.S.R. had capabilities that exceeded U.S. technologies that could endanger Americans, the United States grew worried. Then, a month later, on November 3, 1957, the Soviets achieved an even more impressive space venture. This was SputnikII, a satellite that carried a living creature, a dog named Laika. Prior to the launch of Sputnik, the United States had been working on its own capability to launch a satellite. The United States made two failed attempts to launch a satellite into space before succeeding with a rocket that carried a satellite called Explorer on January 31, 1958. The team that achieved this first U.S. satellite launch consisted largely of German rocket engineers who had once developed ballistic missiles for Nazi Germany. Working for the U.S. Army at the Redstone Arsenal in Huntsville, Alabama, the German rocket engineers were led by Wernher von Braun and had developed the German V2 rocket into a more powerful rocket, called the Jupiter C, or Juno. Explorer carried several instruments into space for conducting science experiments. One instrument was a Geiger counter for detecting cosmic rays. This was for an experiment operated by researcher James Van Allen, which, together with measurements from later satellites, proved the existence of what are now called the Van Allen radiation belts around Earth. In 1958, space exploration activities in the United States were consolidated into a new government agency, the National Aeronautics and Space Administration (NASA). When it began operations in October of 1958, NASA absorbed what had been called the National Advisory Committee for Aeronautics (NACA), and several other research and military facilities, including the Army Ballistic Missile Agency (the Redstone Arsenal) in Huntsville. The first human in space was the Soviet cosmonaut Yuri Gagarin, who made one orbit around Earth on April 12, 1961, on a flight that lasted 108 minutes. A little more than three weeks later, NASA launched astronaut Alan Shepard into space, not on an orbital flight, but on a suborbital trajectory—a flight that goes into space but does not go all the way around Earth. Shepard’s suborbital flight lasted just over 15 minutes. Three weeks later, on May 25, President John F. Kennedy challenged the United States to an ambitious goal, declaring: “I believe that this nation should commit itself to achieving the goal, before the decade is out, of landing a man on the moon and returning him safely to Earth." In addition to launching the first artificial satellite, the first dog in space, and the first human in space, the Soviet Union achieved other space milestones ahead of the United States. These milestones included Luna 2, which became the first human-made object to hit the Moon in 1959. Soon after that, the U.S.S.R. launched Luna 3 . Less than four months after Gagarin’s flight in 1961, a second Soviet human mission orbited a cosmonaut around Earth for a full day. The U.S.S.R. also achieved the first spacewalk and launched the Vostok 6 mission, which made Valentina Tereshkova the first woman to travel to space. During the 1960s, NASA made progress toward President Kennedy’s goal of landing a human on the moon with a program called Project Gemini, in which astronauts tested technology needed for future flights to the moon, and tested their own ability to endure many days in spaceflight. Project Gemini was followed by Project Apollo, which took astronauts into orbit around the moon and to the lunar surface between 1968 and 1972. In 1969, on Apollo11, the United States sent the first astronauts to the Moon, and Neil Armstrong became the first human to set foot on its surface. During the landed missions, astronauts collected samples of rocks and lunar dust that scientists still study to learn about the moon. During the 1960s and 1970s, NASA also launched a series of space probes called Mariner, which studied Venus, Mars, and Mercury. Space stations marked the next phase of space exploration. The first space station in Earth orbit was the Soviet Salyut 1 station, which was launched in 1971. This was followed by NASA’s Skylab space station, the first orbital laboratory in which astronauts and scientists studied Earth and the effects of spaceflight on the human body. During the 1970s, NASA also carried out Project Viking in which two probes landed on Mars, took numerous photographs, examined the chemistry of the Martian surface environment, and tested the Martian dirt (called regolith ) for the presence of microorganisms . Since the Apollo lunar program ended in 1972, human space exploration has been limited to low-Earth orbit, where many countries participate and conduct research on the International Space Station. However, unpiloted probes have traveled throughout our solar system. In recent years, probes have made a range of discoveries, including that a moon of Jupiter, called Europa, and a moon of Saturn, called Enceladus, have oceans under their surface ice that scientists think may harbor life. Meanwhile, instruments in space, such as the Kepler Space Telescope , and instruments on the ground have discovered thousands of exoplanets , planets orbiting other stars. This era of exoplanet discovery began in 1995, and advanced technology now allows instruments in space to characterize the atmospheres of some of these exoplanets.

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The most distant human-made object

No spacecraft has gone farther than NASA's Voyager 1. Launched in 1977 to fly by Jupiter and Saturn, Voyager 1 crossed into interstellar space in August 2012 and continues to collect data.

Mission Type

What is Voyager 1?

Voyager 1 has been exploring our solar system for more than 45 years. The probe is now in interstellar space, the region outside the heliopause, or the bubble of energetic particles and magnetic fields from the Sun.

• Voyager 1 was the first spacecraft to cross the heliosphere, the boundary where the influences outside our solar system are stronger than those from our Sun.
• Voyager 1 is the first human-made object to venture into interstellar space.
• Voyager 1 discovered a thin ring around Jupiter and two new Jovian moons: Thebe and Metis.
• At Saturn, Voyager 1 found five new moons and a new ring called the G-ring.

In Depth: Voyager 1

Voyager 1 was launched after Voyager 2, but because of a faster route, it exited the asteroid belt earlier than its twin, having overtaken Voyager 2 on Dec. 15, 1977.

Voyager 1 at Jupiter

Voyager 1 began its Jovian imaging mission in April 1978 at a range of 165 million miles (265 million km) from the planet. Images sent back by January the following year indicated that Jupiter’s atmosphere was more turbulent than during the Pioneer flybys in 1973–1974.

Beginning on January 30, Voyager 1 took a picture every 96 seconds for a span of 100 hours to generate a color timelapse movie to depict 10 rotations of Jupiter. On Feb. 10, 1979, the spacecraft crossed into the Jovian moon system and by early March, it had already discovered a thin (less than 30 kilometers thick) ring circling Jupiter.

Voyager 1’s closest encounter with Jupiter was at 12:05 UT on March 5, 1979 at a range of about 174,000 miles (280,000 km). It encountered several of Jupiter’s Moons, including Amalthea, Io, Europa, Ganymede, and Callisto, returning spectacular photos of their terrain, opening up completely new worlds for planetary scientists.

The most interesting find was on Io, where images showed a bizarre yellow, orange, and brown world with at least eight active volcanoes spewing material into space, making it one of the most (if not the most) geologically active planetary body in the solar system. The presence of active volcanoes suggested that the sulfur and oxygen in Jovian space may be a result of the volcanic plumes from Io which are rich in sulfur dioxide. The spacecraft also discovered two new moons, Thebe and Metis.

Voyager 1 at Saturn

Following the Jupiter encounter, Voyager 1 completed an initial course correction on April 9, 1979 in preparation for its meeting with Saturn. A second correction on Oct. 10, 1979 ensured that the spacecraft would not hit Saturn’s moon Titan.

Its flyby of the Saturn system in November 1979 was as spectacular as its previous encounter. Voyager 1 found five new moons, a ring system consisting of thousands of bands, wedge-shaped transient clouds of tiny particles in the B ring that scientists called “spokes,” a new ring (the “G-ring”), and “shepherding” satellites on either side of the F-ring—satellites that keep the rings well-defined.

During its flyby, the spacecraft photographed Saturn’s moons Titan, Mimas, Enceladus, Tethys, Dione, and Rhea. Based on incoming data, all the moons appeared to be composed largely of water ice. Perhaps the most interesting target was Titan, which Voyager 1 passed at 05:41 UT on November 12 at a range of 2,500 miles (4,000 km). Images showed a thick atmosphere that completely hid the surface. The spacecraft found that the moon’s atmosphere was composed of 90% nitrogen. Pressure ad temperature at the surface was 1.6 atmospheres and 356 °F (–180°C), respectively.

Atmospheric data suggested that Titan might be the first body in the solar system (apart from Earth) where liquid might exist on the surface. In addition, the presence of nitrogen, methane, and more complex hydrocarbons indicated that prebiotic chemical reactions might be possible on Titan.

Voyager 1’s closest approach to Saturn was at 23:46 UT on 12 Nov. 12, 1980 at a range of 78,000 miles(126,000 km).

Voyager 1’s ‘Family Portrait’ Image

Following the encounter with Saturn, Voyager 1 headed on a trajectory escaping the solar system at a speed of about 3.5 AU per year, 35° out of the ecliptic plane to the north, in the general direction of the Sun’s motion relative to nearby stars. Because of the specific requirements for the Titan flyby, the spacecraft was not directed to Uranus and Neptune.

The final images taken by the Voyagers comprised a mosaic of 64 images taken by Voyager 1 on Feb. 14, 1990 at a distance of 40 AU of the Sun and all the planets of the solar system (although Mercury and Mars did not appear, the former because it was too close to the Sun and the latter because Mars was on the same side of the Sun as Voyager 1 so only its dark side faced the cameras).

This was the so-called “pale blue dot” image made famous by Cornell University professor and Voyager science team member Carl Sagan (1934-1996). These were the last of a total of 67,000 images taken by the two spacecraft.

Voyager 1’s Interstellar Mission

All the planetary encounters finally over in 1989, the missions of Voyager 1 and 2 were declared part of the Voyager Interstellar Mission (VIM), which officially began on Jan. 1, 1990.

The goal was to extend NASA’s exploration of the solar system beyond the neighborhood of the outer planets to the outer limits of the Sun’s sphere of influence, and “possibly beyond.” Specific goals include collecting data on the transition between the heliosphere, the region of space dominated by the Sun’s magnetic field and solar field, and the interstellar medium.

On Feb. 17, 1998, Voyager 1 became the most distant human-made object in existence when, at a distance of 69.4 AU from the Sun when it “overtook” Pioneer 10.

On Dec. 16, 2004, Voyager scientists announced that Voyager 1 had reported high values for the intensity for the magnetic field at a distance of 94 AU, indicating that it had reached the termination shock and had now entered the heliosheath.

The spacecraft finally exited the heliosphere and began measuring the interstellar environment on Aug. 25, 2012, the first spacecraft to do so.

On Sept. 5, 2017, NASA marked the 40th anniversary of its launch, as it continues to communicate with NASA’s Deep Space Network and send data back from four still-functioning instruments—the cosmic ray telescope, the low-energy charged particles experiment, the magnetometer, and the plasma waves experiment.

The Golden Record

Each of the Voyagers contain a “message,” prepared by a team headed by Carl Sagan, in the form of a 12-inch (30 cm) diameter gold-plated copper disc for potential extraterrestrials who might find the spacecraft. Like the plaques on Pioneers 10 and 11, the record has inscribed symbols to show the location of Earth relative to several pulsars.

The records also contain instructions to play them using a cartridge and a needle, much like a vinyl record player. The audio on the disc includes greetings in 55 languages, 35 sounds from life on Earth (such as whale songs, laughter, etc.), 90 minutes of generally Western music including everything from Mozart and Bach to Chuck Berry and Blind Willie Johnson. It also includes 115 images of life on Earth and recorded greetings from then U.S. President Jimmy Carter (1924– ) and then-UN Secretary-General Kurt Waldheim (1918–2007).

By January 2024, Voyager 1 was about 136 AU (15 billion miles, or 20 billion kilometers) from Earth, the farthest object created by humans, and moving at a velocity of about 38,000 mph (17.0 kilometers/second) relative to the Sun.

National Space Science Data Center: Voyager 1

A library of technical details and historic perspective.

Beyond Earth: A Chronicle of Deep Space Exploration

A comprehensive history of missions sent to explore beyond Earth.

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Our Solar System

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List of space travellers by first flight facts for kids

This is a list of space travellers by first flight . The table is listed in chronological order from the date of first flight. The table adheres to a common definition of a space traveller; the Fédération Aéronautique Internationale criterion of achieving an altitude higher than 100 km (62 mi; 330,000 ft), thereby crossing the FAI-defined Kármán line . The criteria for determining who has achieved human spaceflight vary. Personnel who qualify only for the United States Astronaut Badge, awarded to those who achieve an altitude of 50 mi (80 km; 264,000 ft), are listed at the X-15's highest flights and the VSS Unity test flights .

Table parameters

Space travellers.

All entries are dated from launch time in Coordinated Universal Time (UTC), which on occasion is one day earlier than the local date of launches from sites in the Eastern Hemisphere such as Baikonur and one day later than the local date of launches from sites in the Western Hemisphere such as Cape Canaveral .

As a rule, dual nationals fly under a single flag when flying as professional spacecrew and/or when flying on government-operated spacecraft, and this is the flag they are listed under in the table. For the spaceflights of dual nationals who are private citizens flying on commercial spacecraft as ordinary passengers, the flags displayed are those of their countries of birth, unless the space traveller did not hold citizenship of that country and/or otherwise made clear (s)he intended to represent a different nationality.

• Human spaceflight
• List of astronauts by name
• List of astronauts by nationality
• List of fully civilian crewed suborbital spaceflights
• List of fully civilian crewed orbital spaceflights
• List of space travelers by name
• Spaceflight records
• Timeline of space travel by nationality
• This page was last modified on 23 January 2024, at 22:13. Suggest an edit .

The History of Space Travel Timeline

Albert II became the first monkey in space on June 14, 1949, in a specially adapted US V2 rocket.

To travel into the unknown of space is a dream for so many children and adults alike, although one that very few will ever reach.

Throughout time so many countries, and now private companies, across the world have tried to create a method of getting in amongst the stars.

It’s even united countries that previously had such strong conflict.

Here we’re going to go through a timeline of the significant moments in the history of space travel, starting way back in the 1940s.

In 1942 the German V2 rocket, designed by Wernher Von Braun, was the first to reach 100km (62 miles) from the Earth’s surface.

Also known as the boundary of space.

Braun later worked with NASA on the rockets that went to the moon.

In 1947, the first animals went into space.

Fruit flies were used to study the effects of space travel on animals as they’re very similar to humans.

The flies traveled with a supply of corn to eat on the flight.

Albert II was the first monkey in space.

Albert II was a Rhesus monkey and boldly went where no primate had been before on June 14 , 1949, in a specially adapted US V2 rocket, that flew 83 miles from Earth.

On October 4 , 1957, Russia launched the first space satellite (or sputnik in Russian) named Sputnik 1.

Sputnik 1 was the first satellite in orbit around the earth.

In November the same year, Laika the Russian dog became the first animal to orbit the earth. Laika is Russian for “Barker”.

She traveled in Sputnik 2 and helped understand whether people could survive in space.

By 1959 Both US and Russian scientists were in a race to get a craft to the Moon; the Russians won.

Space-probe Luna 2 crash-landed into the moon at fatal speeds.

Ten years later, the first human visited the surface.

On April 12, 1961 , Russian Cosmonaut Yuri Gagarin became the first man in space.

Traveling in Vostok 1 he completed one orbit of the earth, landing about two hours after launch.

Gagarin had to eject and use a parachute to land as the craft was designed to crash land.

John Glenn became the first US man to orbit the Earth aboard the Friendship 7.

John actually chose this name; officially the craft is called the Mercury-Atlas 6, for the mission Mercury and it being the 6 th flight to use the faster Atlas rocket.

Valentina Tereshkova, a Russian cosmonaut, became the first woman in space.

After her mission, she had a crater on the far side of the Moon is named after her.

Who could believe, after just sending men to the moon, NASA managed to successfully conduct the first Mars flyby with their Mariner 4 craft.

In 1963 John F. Kennedy promised that by 1970 the US would have put men on the moon.

NASA firstly sent a robot spaceship called Surveyor 1, to make sure they could safely land.

It reached the moon on May 30 , 1966, just after the Russian probe Luna 9.

Once Surveyor 1 landed it took photographs and sent them back to eagerly awaiting scientists who used them to visualize the terrain and work out a plan to land people on the moon safely.

On July 20 , 1969, the famous “one small step” was taken by Neil Armstrong and Buzz Aldrin, and the first words were spoken, “the Eagle has landed”.

This iconic phrase confirmed them as the first men on the moon.

The Apollo 11 craft flew them 250,000 miles to the moon and back.

Apollo 13 on April 13, 1970 , the second day of its trip to the moon, suffered a wiring fault causing an explosion.

Using what was on board, NASA and the astronauts on board made repairs to bring the damaged craft back to Earth.

This saw the first use of the Lunar Rover, an electric vehicle with a top speed of 8 mph (13 kph), to explore the moon on the fourth, fifth and sixth Apollo missions.

The rover took Boeing 17 months to design and develop.

The first-ever space station was launched in 1971, the Russian Salyut 1, and was launched from an unmanned rocket.

In 1973 Mars 2, a 2-part Russian probe explored Mars .

One part was to stay in orbit for the whole year sending pictures back to earth and the other was to land and explore Mars’ surface.

It was destroyed when a parachute failed.

The US launched their Voyager 1 deep space probe.

Voyager 1, on February 17, 1998 , became the most distant human-made object in space after it passed the previous title holder; Pioneer 10.

From April 12, 1981, saw the idea of reusable space crafts, prior to this they were a one-hit-wonder.

The Space Shuttle was designed to lower costs and could be used up to 100 times.

With five rocket motors, it reached 17,000+ mph (27,350+ Kph). Six were built and 2011 saw their last use.

The first craft to start the Space Shuttle era was called Columbia.

On January 28, 1986 , Space Shuttle Challenger exploded due to a fuel system failure just after launch.

All seven astronauts were killed.

After this tragedy, all shuttles were grounded for almost three years.

In the same year, Construction started on the MIR space station, the first consistently inhabited long-term space station.

It was built in sections, taking 10 years, with each bit rocket-launched and combined in orbit.

In 2001 it was destroyed on its descent to earth. The ISS or International Space station also started construction in this year designed for research and space exploration.

The final major module of the ISS didn’t arrive until 2010.

The shuttle Discovery was launched to deploy the Hubble Space Telescope into Earth’s Orbit.

The telescope is able to lock onto a target without moving to about the width of a human hair seen a mile away, or more scientifically, more than 7/1000 th of an arcsecond.

Just like there are 60 minutes in an hour, there are 60 arcminutes in 1 degree, and 60 arcseconds in an arcminute.

In 1989, Helen Sharman won a competition to become the first British astronaut in space, she previously worked for Mars Bar.

After 18 months of harsh training, she joined a Russian mission to the MIR space station.

After all their problems, the US and Russia finally start working together, or at least in space terms they were.

This year saw the US shuttle Atlantis dock at the Russian MIR space station.

The first look at mars occurred when Sojourner, A U.S rover, travels onto Mars to explore the planet’s geology.

In 2000 the first permanent crew inhabited the International Space Station (ISS), and have been there ever since.

On April 28, 2001 , US millionaire Dennis Tito spent around $20,000,000 and had 900 hours of training to be the first space tourist for a ride in a Russian Soyuz spacecraft.

He spent one week in orbit and of this time he spent most visiting the ISS.

This symbolized the hopes for space travel, for it to become a normal venture one day for everyone.

On June 21 , 2004, the first privately funded manned space flight happened with the craft SpaceShipOne.

An adaptation of this technology is being used by Virgin Galactic, a company offering private tourist flights into space.

Even though in 2014 it crashed during testing, flights are still happening.

In this year, the European Space Agency launched their Rosetta probe hoping to reach Comet 67P/Churyumov–Gerasimenko.

SpaceX, a private company that built a craft to replace the newly retired Space Shuttle, became the first to launch a privately funded liquid-fueled rocket into Orbit, the Falcon 1.

These rockets are used to launch their Dragon capsule, a remote-controlled capsule that takes supplies to the ISS.

The U.S Messenger mission to Mercury , launched in 2004, made its journey successfully traveling 48 million miles (77 million km), to begin its yearlong orbit of the mysterious planet.

Russia launched the largest space telescope to date named Spekt-R beating the Hubble.

The device is built to study astronomical objects with an angular resolution of a few millionths of an arcsecond.

The colossal telescope weighed 11,000 pounds (5,000 kilograms).

A major moment for commercial space travel started on May 22 nd , SpaceX launched another Dragon C2+ powered by their Falcon 9 rocket to deliver a resupplying capsule to the ISS.

The capsule was caught by the ISS’s robotic arm and docked for nearly six days while astronauts removed cargo and loaded that destined for Earth, a trip it made with no real complications.

NASA’s Curiosity rover, a piece of equipment the size of a car, landed on Mars on August 6 th .

It’s the largest and most advanced rover ever to land on the red planet.

On August 25 th , Voyager 1, launched in the late ‘70s, became the first man-made spacecraft to cross into interstellar space.

The Rosetta probe, launched in 2004, finally reached Comet 67P/Churyumov–Gerasimenko after a 4 billion-mile journey.

Whilst on the comet, the lander sent data and high-resolution images from the Comet’s surface back to earth including 490-foot cliffs and house-sized boulders.

The Philae lander made a soft landing on November 12 th after a perilous 7-hour descent.

Harpoons designed to attach to the comet failed, and the lander bounced twice before landing successfully.

On March 6 th , NASA’s Dawn spacecraft entered an orbit around a dwarf planet Ceres, the largest object in the asteroid belt between Mars and Jupiter .

With a 590 mile (950 km) diameter, it makes up a quarter of the mass of the belt.

July 14 th saw NASA’s New Horizons spacecraft arrive at Pluto after traveling 9 years and 4.6 billion miles.

It passes, during its closest approach, only 7,750 miles from the surface and took high-resolution photos of Pluto and Charon, the largest moon.

Pluto is said to be about 50 miles larger than thought.

On July 30 , 2020, at 11:50 UTC, NASA launched their Mars Rover, which was the largest of four missions to Mars in 2020 . 

Without a doubt, this mission plans to be the most fruitful with the craft equipped with state-of-the-art modern technology and engineering capable of truly exploring the martian land like never before!

The Mars Rover’s mission among other things is to see if the red planet has ever accommodated extra-terrestrial life by exploring any signs of habitable conditions both in the past and present.

Space travel has for so many people mesmerized them from a very young age, myself included, and as this list has shown, there is always something new to discover!

We have barely scratched the surface, and yet every year we learn or launch something new with the dream of reaching some unknown bit of the universe.

To travel to the furthest edge man can reach will always be the aim.

To unearth the secrets hidden, to find life or anything that’s interesting and bewildering drives some of the best minds in the world every day.

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About the author.

Dan Lewis has worked in the tech sector for about 7 years and is qualified in most areas including networking, hardware, software & support. Enjoys writing about anything techy, nerdy or factually interesting.

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Famous Firsts in Space Travel and Exploration

With the launch of the world's first satellite, Sputnik, in 1957, the modern space age began, and countless space firsts followed. By the end of the next decade, the first manned space flight and the first people in space were already old news, and Russia and the United States had both developed space programs, launching a tense space race to be the first to land a man on the moon. The United States won that one with "one giant leap for mankind" in July 1969.

Since the historic Moon landing, there have been many more interstellar "firsts," as space travel and exploration have continued to push boundaries. Among the landmarks are the first reusable spacecraft, the first Mars landing, the first space telescope, the first space station, and, in July 2015, the first flyby of dwarf planet Pluto.

The space race may be over, and the first space flight is just another moment in history, but that doesn't mean mankind has stopped searching the skies. Peruse some of history's most notable space firsts below and let your imagination wander... perhaps to "a galaxy far, far away."

1957 - First Satellite to Orbit Earth

1957 - First Animal in Space

1961 - First Human in Space

1961 - First American in Space

1961 - First Person to Spend Over a Day in Space

1962 - First American to Orbit the Earth

1963 - First Woman in Space

1965 - First Space Walk

1967 - First Person to Die in Space

1969 - First Crew Exchange in Space

1969 - First Man on the Moon

1970 - First Space Rescue

In 1970, after an oxygen tank exploded on board Apollo 13, Mission Control helped the crew return safely to Earth four days later. The story was told both by mission commander Jim Lovell, in his book Lost Moon , and on-screen in the 1995 movie Apollo 13, starring Tom Hanks, Ed Harris, Bill Paxton, Kevin Bacon, and Gary Sinise.

1972 - First Spacecraft to Leave the Solar System

1973 - First American Space Station

1976 - First Mars Landing

1981 - First Reusable Space Vehicle

1983 - The First African American in Space

1984 - First Untethered Space Walk

1986 - First Civilian Death

1990 - First Space Telescope

1997 - First Vote Cast from Space

In 1997, NASA astronaut David Wolf  (pictured) cast the first vote in a federal election from space. Wolf was aboard the Russian Mir space station at the time. His vote was securely beamed back to Mission Control in Houston, who forwarded it along to voting authorities.

1997 - First Surface Travel on Another Planet

2001 - First Space Tourist

2003 - First Person to Be Married from Space

2004 - First Spacecraft to Orbit Saturn

2021 - First Billionaires in Space

On July 11, 2021, British entrepreneur and Virgin Galactic founder Richard Branson became the first billionaire to fly to space. His company's plane, the VSS Unity, was carried by an aeroplane before it detached and flew to the edge of Earth's atmosphere  about 53 miles  above the Earth. The entire trip took about an hour. Branson, two pilots, and three other crew members were on board.

Just nine days later on July 20, 2021 (the anniversary of NASA's moon landing), Amazon founder Jeff Bezos became the second billionaire in space, flying aboard the New Shepard, a spacecraft created by his company Blue Origin. Bezos and three crew members, carried in a capsule fueled by a booster rocket, flew higher than Branson, more than 62 miles above the Earth. The entire trip took about 10 minutes. His fellow crew members included the oldest and youngest people to travel to space: Wally Funk, 82, who was part of the Woman in Space program  in the 1960s (a project to test women's spaceflight capabilities), but never had a chance to fly; and Oliver Daemen, 18, a paying passenger from the Netherlands.

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The World’s First Space Tourist Plans a Return Trip—This Time to the Moon

F ew people had heard of aerospace engineer and financial analyst Dennis Tito before 2001. That was the year Tito, then 60, became the first paying space tourist, cutting a $20 million check to Russia to fly aboard a Soyuz spacecraft and spend a week aboard the International Space Station (ISS). Since then, Tito has remained Earthbound, but has never quite shaken the adventuring bug. Now, he is planning to return to space—this time traveling to the moon, a route nobody but the Apollo astronauts have ever flown.

As SpaceNews , CNN , and others report, Tito, now 82, and his wife Akiko, have both inked a deal to travel on a one-week journey aboard SpaceX’s Starship spacecraft, along with up to 10 other paying passengers. They will be flying a path that will take them around the far side of the moon and slingshot them back home. The amount Tito and his wife are paying for their seats aboard the ship has not been disclosed.

The Starship is a 50 m (164 ft.) tall stainless steel spacecraft that launches atop SpaceX’s 69 m (226 ft.) Super Heavy booster. While the the rocket has never flown before, SpaceX hopes to launch it on its first, uncrewed Earth-orbital mission as early as next month. Following that, the Starship-Super Heavy pair will make its first crewed flight—also Earth orbital—in 2024 or 2025. Tito’s circumlunar flight would come sometime after that.

Just this week, SpaceX rolled the Super Heavy booster out to the launch pad at its Boca Chica, Texas, launch base, and stacked the Starship spacecraft on top. It was the first time the two segments of the giant machine had been mated. Together they make a formidable sight, towering 120 m (394 ft.) high—or a good seven stories taller than NASA’s mega moon rocket , the Space Launch System (SLS). Starship is also significantly more powerful than the SLS. Starship’s 33, methane-fueled engines put out 7.2 million kg (16 million lb.) of thrust, nearly double that of NASA’s 6-engine rocket, which produces 4 million kg (8.8 million lb.).

Tito will make his journey aboard an identical machine—indeed, it could be the exact same one, since both the Starship and Super Heavy are designed to be reusable. In some respects, he surprised himself by deciding to make the trip at all. Until recently, he said in a call with reporter, he had hadn’t been planning to return to space, but, “over time, watching the developments of SpaceX and just what they were doing fascinated me.”

Last year, he began discussions with SpaceX, and told the company he would like to fly again, though not merely to the ISS. “‘I would be interested in going to the moon,'” he recalls saying. “And then I looked over to Akiko, and we had a little eye contact, and she goes, ‘Yeah, me too.’”

For the record, Tito says that after this mission, he really, truly will be retiring from the spaceflight game.

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World’s 1st space tourist signs up for flight around moon

The world’s first space tourist has signed up to spin around the moon aboard Elon Musk’s Starship. For Dennis Tito, it’s a chance to relive the joy of his trip 21 years ago to the International Space Station. (Oct. 12)

This photo provided by SpaceX photo shows Dennis Tito and his wife, Akiko, at the company’s Starship rocket base near Boca Chica, Texas, on Monday, Oct. 10, 2022. The couple has booked a flight to the moon on SpaceX’s Starship. (SpaceX via AP)

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FILE - U.S. multimillionaire Dennis Tito gives a thumbs up shortly after his landing in the Central Asian steppes, 80 kilometers (50 miles) northeast of Arkalyk, Kazakstan on May 6, 2001. The world’s first space tourist has signed up to spin around the moon aboard Elon Musk’s Starship. For Dennis Tito, it’s a chance to relive the joy of his trip 21 years ago to the International Space Station. (AP Photo/Mikhail Metzel, File)

CAPE CANAVERAL, Fla. (AP) — The world’s first space tourist wants to go back — only this time, he’s signed up for a spin around the moon aboard Elon Musk’s Starship.

For Dennis Tito, 82, it’s a chance to relive the joy of his trip to the International Space Station, now that he’s retired with time on his hands. He isn’t interested in hopping on a 10-minute flight to the edge of space or repeating what he did 21 years ago. “Been there, done that.”

His weeklong moonshot — its date to be determined and years in the future — will bring him within 125 miles (200 kilometers) of the lunar far side. He’ll have company: his wife, Akiko, and 10 others willing to shell out big bucks for the ride.

Tito won’t say how much he’s paying; his Russian station flight cost $20 million.

The couple recognize there’s a lot of testing and development still ahead for Starship, a shiny, bullet-shaped behemoth that’s yet to even attempt to reach space.

“We have to keep healthy for as many years as it’s going to take for SpaceX to complete this vehicle,” Tito said in an interview this week with The Associated Press. “I might be sitting in a rocking chair, not doing any good exercise, if it wasn’t for this mission.”

Tito is actually the second billionaire to make a Starship reservation for a flight around the moon. Japanese fashion tycoon Yusaku Maezawa announced in 2018 he was buying an entire flight so he could take eight or so others with him, preferably artists. The two men both flew to the space station, from Kazakhstan atop Russian rockets, 20 years apart.

Tito kicked off space tourism in 2001, becoming the first person to pay his own way to space and antagonizing NASA in the process. The U.S. space agency didn’t want a sightseer hanging around while the station was being built. But the Russian Space Agency needed the cash and, with the help of U.S.-based Space Adventures, launched a string of wealthy clients to the station through the 2000s and, just a year ago, Maezawa.

Well-heeled customers are sampling briefer tastes of space with Jeff Bezos’ Blue Origin rocket company. Richard Branson’s Virgin Galactic expects to take paying passengers next year.

Starship has yet to launch atop a Super Heavy booster from the southern tip of Texas, near the Mexican border. At 394 feet (120 meters) and 17 million pounds (7.7 million kilograms) of liftoff thrust, it’s the biggest and most powerful rocket ever built. NASA already has contracted for a Starship to land its astronauts on the moon in 2025 or so, in the first lunar touchdown since Apollo.

Tito said the couple’s contract with SpaceX, signed in August 2021 and announced Wednesday, includes an option for a flight within five years from now. Tito would be 87 by then and he wanted an out in case his health falters.

“But if I stayed in good health, I’d wait 10 years,” he said.

Tito’s wife, 57, said she needed no persuading. The Los Angeles residents are both pilots and understand the risks. They share Musk’s vision of a spacefaring future and believe a married couple flying together to the moon will inspire others to do the same.

Tito, who sold his investment company Wilshire Associates almost two years ago, said he doesn’t feel guilty splurging on spaceflight versus spending the money here on Earth.

“We’re retired and now it’s time to reap the rewards of all the hard work,” he said.

Tito expects he’ll also shatter preconceived notions about age, much as John Glenn’s space shuttle flight did in 1998. The first American to orbit the Earth still holds the record as the oldest person in orbit.

“He was only 77. He was just a young man,” Tito said. “I might end up being 10 years older than him,”

The Associated Press Health and Science Department receives support from the Howard Hughes Medical Institute’s Department of Science Education. The AP is solely responsible for all content.

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Highlights From SpaceX’s Starship Test Flight

The powerful rocket, a version of which will carry astronauts to the moon for NASA, launched for the third time on Thursday morning. It achieved a number of milestones before losing contact with the ground.

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Kenneth Chang

Here’s what happened during the third test flight of the most powerful rocket ever built.

Spacex launches starship for third time, the rocket, a version of which will eventually carry nasa astronauts to the moon, traveled almost halfway around the earth before it was lost as it re-entered the atmosphere..

“Five, four, three, two, three, one.” “This point, we’ve already passed through Max-Q, maximum dynamic pressure. And passing supersonic, so we’re now moving faster than the speed of sound. Getting those on-board views from the ship cameras. Boosters now making its way back, seeing six engines ignited on ship. Kate, we got a Starship on its way to space and a booster on the way back to the Gulf.” “Oh, man. I need a moment to pick my jaw up from the floor because these views are just stunning.”

The third try turned out to be closer to the charm for Elon Musk and SpaceX, as his company’s mammoth Starship rocket launched on Thursday and traveled about halfway around the Earth before it was lost as it re-entered the atmosphere.

The test flight achieved several key milestones in the development of the vehicle, which could alter the future of space transportation and help NASA return astronauts to the moon.

This particular flight was not, by design, intended to make it all the way around the Earth. At 8:25 a.m. Central time, Starship — the biggest and most powerful rocket ever to fly — lifted off from the coast of South Texas. The ascent was smooth, with the upper Starship stage reaching orbital velocities. About 45 minutes after launch, it started re-entering the atmosphere, heading toward a belly-flop splashdown in the Indian Ocean.

Live video, conveyed in near real-time via SpaceX’s Starlink satellites , showed red-hot gases heating the underside of the vehicle. Then, 49 minutes after launch, communications with Starship ended, and SpaceX later said the vehicle had not survived the re-entry, presumably disintegrating and falling into the ocean.

Even so, Bill Nelson, the administrator of NASA, congratulated SpaceX on what he called a “successful test flight” of the system his agency is counting on for some of its Artemis lunar missions.

SpaceX aims to make both the vehicle’s lower rocket booster and the upper spacecraft stage capable of flying over and over again — a stark contrast to the single-launch throwaway rockets that have been used for most of the space age.

That reusability gives SpaceX the potential to drive down the cost of lofting satellites and telescopes, as well as people and the things they need to live in space.

Completing most of the short jaunt was a reassuring validation that the rocket’s design appears to be sound. Not only is Starship crucial for NASA’s lunar plans, it is the key to Mr. Musk’s pipe dream of sending people to live on Mars.

For Mr. Musk, the success also harks back to his earlier reputation as a technological visionary who led breakthrough advances at Tesla and SpaceX, a contrast with his troubled purchase of Twitter and the polarizing social media quagmire that has followed since he transformed the platform and renamed it X. Even as SpaceX launched its next-generation rocket, the social media company was dueling with Don Lemon , a former CNN anchor who was sharing clips from a combative interview with Mr. Musk.

SpaceX still needs to pull off a series of formidable rocketry firsts before Starship is ready to head to the moon and beyond. Earlier this week, Mr. Musk said he hoped for at least six more Starship flights this year, during which some of those experiments may occur.

But if it achieves them all, the company could again revolutionize the space transportation business and leave competitors far behind.

Phil Larson, a White House space adviser during the Obama administration who also previously worked on communication efforts at SpaceX, said Starship’s size and reusability had “massive potential to change the game in transportation to orbit. And it could enable whole new classes of missions.”

NASA is counting on Starship to serve as the lunar lander for Artemis III, a mission that will take astronauts to the surface of the moon for the first time in more than 50 years. That journey is currently scheduled for late 2026 but seems likely to slide to 2027 or later.

The third flight was a marked improvement from the first two launch attempts.

Last April, Starship made it off the launchpad, but a cascade of engine failures and fires in the booster led to the rocket’s destruction 24 miles above the Gulf of Mexico.

In November, the second Starship launch traveled much farther. All 33 engines in the Super Heavy booster worked properly during ascent, and after a successful separation, the upper Starship stage nearly made it to orbital velocities. However, both stages ended up exploding.

Nonetheless, Mr. Musk hailed both test flights as successes, as they provided data that helped engineers improve the design.

Thursday’s launch — which coincided with the 22nd anniversary of the founding of SpaceX — occurred 85 minutes into a 110-minute launch window. The 33 engines in the booster ignited at the launch site outside Brownsville, Texas, and lifted the rocket, which was as tall as a 40-story building, into the morning sky.

Most of the flight proceeded smoothly, and a number of test objectives were achieved during the flight, like opening and closing the spacecraft’s payload doors, which will be needed to deliver cargo in the future.

SpaceX did not attempt to recover the booster this time, but did have it perform engine burns that will be needed to return to the launch site. However, the final landing burn for the booster, conducted over the Gulf of Mexico, did not fully succeed — an area that SpaceX will attempt to fix for future flights.

SpaceX said the Super Heavy disintegrated at an altitude of about 1,500 feet.

SpaceX engineers will also have to figure out why Starship did not survive re-entry and make fixes to the design of the vehicle.

Even with the partial success of Thursday’s flight, Starship is far from ready to go to Mars, or even the moon. Because of Mr. Musk’s ambitions for Mars, Starship is much larger and much more complicated than what NASA needs for its Artemis moon landings. For Artemis III, two astronauts are to spend about a week in the South Pole region of the moon.

“He had the low price,” Daniel Dumbacher, the executive director of the American Institute of Aeronautics and Astronautics and a former high-level official at NASA, said of Mr. Musk, “and NASA chose to take the risk associated with that configuration hoping that it would work out. And we’ll see if that turns out to be true.”

To leave Earth’s orbit, Starship must have its propellant tanks refilled with liquid methane and liquid oxygen. That will require a complex choreography of additional Starship launches to take the propellants to orbit.

“This is a complicated, complicated problem, and there’s a lot that has to get sorted out, and a lot that has to work right,” Mr. Dumbacher said.

Thursday’s flight included an early test of that technology, moving liquid oxygen from one tank to another within Starship.

Mr. Dumbacher does not expect Starship to be ready by September 2026, the launch date NASA currently has for Artemis III, although he would not predict how much of a delay there might be. “I’m not going to give you a guess because there is way too much work, way too many problems to solve,” he said.

Kenneth Chang and Michael Roston

A rare sight: Starship’s bright orange glow as it re-entered Earth’s atmosphere.

Just past the 45-minute mark of the Starship vehicle’s journey through space on Thursday, something eerie happened. As it drifted high above Earth’s oceans and clouds, the spacecraft’s silvery exterior was overtaken by a brilliant and fiery orange glow.

Starship re-entering Earth's atmosphere. Views through the plasma pic.twitter.com/HEQX4eEHWH — SpaceX (@SpaceX) March 14, 2024

When a spacecraft re-enters the atmosphere, the air beneath it gets hot — hot enough that it turns into a plasma of charged particles as electrons are stripped away from the air molecules. The charged particles create picturesque glows, like neon signs.

But seeing this happen in nearly real-time during a spaceflight is uncommon. That plasma disrupts radio signals, cutting off communication.

Such blackouts happen, for instance, when SpaceX’s Crew Dragon capsule returns to Earth from the International Space Station with its complement of four astronauts. Mission controllers must wait with bated breath to be reassured that the spacecraft’s heat shield has held up and protected the crew during atmospheric re-entry.

Until Starship succumbed to the intense forces of re-entry on Thursday, SpaceX used its Starlink internet satellites to relay the live video feed. The Starlink satellites are in higher orbits, and sending signals upward — away from the plasma — is easier than trying to communicate through it to antennas on the ground.

But Starship wasn’t the only spacecraft in recent weeks to give us a view of plasma heating. Varda Space, a startup that is developing technology for manufacturing in orbit, had cameras on a capsule it landed on Earth on Feb. 21. Before it parachuted to the ground, its Winnebago capsule recorded a day-glow re-entry. The company retrieved the video recording from the capsule and shared it online:

Here's a video of our capsule ripping through the atmosphere at mach 25, no renders, raw footage: pic.twitter.com/ZFWzdjBwad — Varda Space Industries (@VardaSpace) February 28, 2024

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Jeff Bezos’s rocket company could race SpaceX to the moon.

Which billionaire space company will get to the moon first: Elon Musk’s SpaceX or Jeff Bezos’ Blue Origin?

At first glance, SpaceX seems to have a huge head start. It is about to launch the third test flight of Starship. A variation of Starship is scheduled to take NASA astronauts to the surface of the moon as soon as September 2026.

By contrast, Blue Origin has yet to launch anything into orbit, and its contract with NASA for a lunar lander for astronauts is for a mission that is launching in 2030.

But Blue Origin might still get there first. SpaceX faces major challenges with Starship, which is as tall as 16-story building, while Blue Origin plans to send a smaller cargo lander to the moon by the end of next year.

“This lander, we’re expecting to land on the moon between 12 and 16 months from today,” John Couluris, senior vice president of lunar permanence at Blue Origin, said during a n interview on the CBS News program “60 Minutes” this month.

The first launch of the Mark 1 version of the Blue Moon lander is what Blue Origin calls a “pathfinder” to test technologies like the BE-7 engine, the flight computers, avionics and power systems — the same systems that will be used in the much larger Mark 2 lander that will take astronauts to the moon’s surface.

The Mark 1 lander can carry up to three tons of cargo to the lunar surface, but will be small enough to fit inside one of Blue Origin’s New Glenn rockets . New Glenn has yet to fly, but the company says its debut journey will occur later this year.

After Blue Moon Mark 1 is launched into an orbit about 125 miles above Earth’s surface, the lander’s BE-7 engine will propel it toward the moon, slowing it down to enter orbit around the moon and then guiding it to the landing on the surface.

The smaller size means that the Mark 1 lander, unlike Starship, will not need to be refueled before leaving Earth orbit. Demonstrating that refueling technology in orbit will be a key test to validate Starship’s design. Refueling will also be needed for the Blue Moon Mark 2 lander.

Mr. Musk and Mr. Bezos have already been beaten to the moon by another billionaire, Kam Ghaffarian , one of the founders of Intuitive Machines, which put a small robotic lander named Odysseus near the lunar south pole in February . That was the first private spacecraft to successfully make it to the moon’s surface in one piece (although its journey had some hiccups ).

As with every American rocket mishap, the Federal Aviation Administration will open an investigation to review what went wrong and what SpaceX needs to do to correct it. But if, as Elon Musk says, there are at least six more Starship flights this year, SpaceX will have opportunities to complete a full test flight.

Starship's third flight went very far, but like its first two flights, it was not a complete success. The landing burn for the Super Heavy booster stage of the rocket — the aim was to “land” it in the Gulf of Mexico — was not fully successful, and the Starship craft did not survive re-entry. But it was marked significant progress, because none of the problems from the earlier flights recurred, and SpaceX engineers now have data to tackle the new problems.

Michael Roston

On the social media site X, Bill Nelson, the administrator of NASA, congratulated SpaceX on what he called a “successful test flight” of Starship. The agency is counting on Starship to land astronauts on the moon’s surface as part of the Artemis III mission. Another vehicle, the Orion capsule, is to be used to bring those astronauts back to Earth.

SpaceX says Starship did not survive re-entry, but it achieved several key milestones during the flight. That marks significant progress since the second test flight. Elon Musk has said he hopes there will be a half-dozen Starship flights this year.

SpaceX says a dual loss of communication, both through its own Starlink satellites and other forms spacecraft communications with Earth, suggest that Starship did not survive re-entry. They’re still listening to see if radio contact resumes.

Video is gone. Telemetry is also stuck at a speed 25,707 kilometers per hour and an altitude of 65 kilometers. The reason is not clear.

Starship already has private customers booked for deep space trips.

Starship has not yet done a full orbit of the Earth, but SpaceX already has three private astronaut missions on its manifest for the spacecraft.

The first flight with astronauts aboard will be led by Jared Isaacman who previously bought an orbital trip on a Falcon 9 rocket that was known as Inspiration4 .

Then two other Starship flights will travel around the moon and back, one led by Yusaku Maezawa , a Japanese entrepreneur, and the other by Dennis Tito, who was the first private individual to buy a trip to the International Space Station in 2001.

Back in 2018 when Mr. Maezawa signed up for the lunar flyby, Mr. Musk said Starship would be ready by 2023.

Mr. Maezawa later called the mission ‘dearMoon,’ inviting people to apply for a seat on the trip. Last week, he acknowledged it was not going to happen this year.

“We were planning for our lunar orbital mission ‘dearMoon’ to take place in 2023, but seems like it will take a little longer,” he wrote on the social network X. “We’re not sure when the flight will be, but we will give you all an update once we know more.”

SpaceX is apparently also planning uncrewed cargo flights to the surface of the moon with Starship.

In March last year, a small start-up company, Astrolab, announced that it was sending a Jeep Wrangler-size rover to surface in the south polar region of the moon , and the ride would be a cargo Starship flight that would take it there.

SpaceX did not confirm the news.

This appears to be part of the expanding potential market for Starship. SpaceX also plans to use the rocket for launching its second generation of Starlink internet communications satellites .

Starship is re-entering Earth's atmosphere. We’re seeing the heating on the flaps, with video being transmitted to the ground through SpaceX's Starlink satellites. The view is incredible. Usually the plasma disrupts radio transmissions.

SpaceX skipped the restart of one of the Raptor engines on the upper stage of Starship. It did conduct the propellant transfer test and the opening and closing of the payload door, which means the flight achieved some of its experimental objectives during its coast around the Earth, but not others. Next stop: Re-entry through the atmosphere and a hard bellyflop in the Indian Ocean.

The music on the livestream is more old-fashioned than the ambient beats we’re used to during SpaceX video feeds. But there’s nothing old-fashioned about the views in space from the rocket, which are unreal, but have not always been visible as its connection to the ground comes and goes.

During this period of the flight, Starship is scheduled to perform several tests. The first, opening the payload door, is complete. It will also move several tons of liquid oxygen between two tanks within Starship. That’s a preliminary test for future in-orbit refueling between two Starships, which is critical for sending the vehicle to the moon. Finally, Starship will try to restart one of its Raptor engines in the vacuum of space, something it has not done before.

The payload door of the upper Starship rocket stage is now open. That’s how a future Starship will deploy Starlink satellites, and demonstrating that it works was one of the objectives of today's flight.

The engines on the upper-stage of the rocket successfully completed their burn. Starship is now coasting in space, on a trajectory that will re-enter the atmosphere over the Indian Ocean.

We were watching the booster attempting to land in the Gulf of Mexico. But the camera feed cut off, and we're not sure what actually happened. The upper stage Starship is still continuing on its trajectory toward the Indian Ocean.

The Super Heavy booster stage of the rocket appears to be headed back to Earth. During the last attempt, the booster exploded at this point, so it looks like SpaceX has fixed that issue.

The large Super Heavy booster stage has separated from the Starship upper stage, which is on its way to space. The flight is looking good.

All 33 Raptor engines in the booster are working fine. So far everything looks good.

Less than 2 minutes until liftoff. Propellant tanks are full, and wind will not prevent an on-time liftoff.

Starship is less than 10 minutes away from its third launch. The countdown is going smoothly.

What will happen during Starship’s third test flight.

For its third test flight, Starship aims to fly part of the way around the Earth, starting from SpaceX’s launch site in Boca Chica Village, Texas, and splashing down in the Indian Ocean.

The earlier test flights — both of which ended in explosions — aimed to come down in waters off Hawaii. SpaceX said it had set the new flight path to allow for safe testing of things it hadn’t done before with the Starship vehicle.

The journey will start at the site that SpaceX calls Starbase, which is a few miles north of where Texas and Mexico meet along the Gulf of Mexico. The rocket, nearly 400 feet tall, will be mounted next to a launch tower that is about 480 feet tall. It will be filled with methane and liquid oxygen propellants during the hours before liftoff.

Three seconds before launch, computers will begin to ignite the 33 engines in the Super Heavy rocket booster beneath Starship.

Starship and Super Heavy will begin their ascent over the Gulf. At 52 seconds into the flight, SpaceX says, the vehicle will experience the heaviest atmospheric stress of its trip, a moment flight engineers call max-q.

If the stainless steel spacecraft survives that stress, the next key moment will occur 2 minutes and 42 seconds into flight, when most of the Super Heavy booster’s engines power down. Seconds later, the upper Starship vehicle will begin “hot-staging,” or lighting up its engines before separating from Super Heavy.

Super Heavy’s journey will end about seven minutes after launch. SpaceX would typically aim to return the massive rocket booster to the launch site for a vertical landing. But for the test flight, the spent Super Heavy will perform a series of maneuvers before firing its engines one last time to slow its descent into the Gulf of Mexico.

As Super Heavy is descending, Starship will be gaining altitude. About eight and a half minutes into its flight, its engines will switch off. It will then begin coasting around the Earth.

While floating through space, Starship will attempt several things that the spacecraft has never done. Nearly 12 minutes into the flight, it will open a door that in the future could deploy satellites and other cargo into space. About 12 minutes later, it will transfer propellants from one tank to another while in space, a technique needed for future journeys to the moon and beyond. Then, 40 minutes into the flight, Starship will relight one if its engines while in space.

If the spacecraft makes it through those experiments, the conclusion of Starship’s journey will start at about the 49-minute mark. The spacecraft is set to pivot horizontally into a belly-flop to re-enter Earth’s atmosphere. If it survives the extreme temperatures, Starship will splash down 64 minutes after it left Texas. The company has said in the past that it expects the belly-flop ocean landing to end in an explosion .

After SpaceX completes its testing campaign, future Starship flights will return to the Texas Starbase site after they complete their missions in orbit. SpaceX is also building a launch tower for Starship at Kennedy Space Center in Florida, where flights could one day launch and land, including the Artemis III mission that NASA plans to use to return American astronauts to the moon’s surface.

SpaceX has started the company’s official live video stream from Texas, a sign that it is serious about igniting the rocket in about 20 minutes. You can watch it in the video player embedded above.

What went right and wrong during the 2nd Starship test flight.

The second test flight of Starship in November got a lot higher and faster than the first attempt seven months earlier.

During the first launch outside Brownsville, Texas, in April last year, things went wrong from the start — the exhaust of the engines of the Super Heavy booster excavated a hole beneath the launchpad, sending pieces of concrete flying up to three-quarters of a mile away and a plume of dust drifting 6.5 miles, blanketing the nearby town of Port Isabel. Several of the booster engines failed, and the upper stage never separated from the booster.

Instead, the rocket started making loop-de-loops before the flight termination system destroyed it.

During the second test flight , all 33 of the booster engines worked during ascent. A water deluge system protected the launchpad. The upper Starship stage separated from the booster and then made it most of the way to orbital velocity. However, the journeys of both the booster and the upper Starship stage still ended in explosions.

For the booster, as it dropped away from the upper stage, 13 of the 33 engines fired again to guide it toward the landing location. Although this particular booster was not going to be recovered, SpaceX wanted to test the re-entry techniques that are similar to what it currently uses for its smaller Falcon 9 rockets. However, something went wrong. Several engines shut down and then one blew up, causing the destruction of the booster.

In an update posted on the company’s website on Feb. 26 , SpaceX said the most likely cause of the booster failure was a blockage of a filter where liquid oxygen flowed to the engines. The company said it had made design changes to prevent that from happening again.

The upper stage continued upward for seven minutes after stage separation. This was itself an achievement because the company completed a step called hot-staging, during which the upper-stage engines ignite before the stage detaches from the Super Heavy booster.

Because the spacecraft was empty, extra liquid oxygen was loaded to simulate the weight of a future payload it could carry to orbit. But when the extra oxygen was dumped, a fire started, disrupting communication between the spacecraft’s flight computers. The computers shut down the engines and then set off the flight termination system, destroying the spacecraft.

The upper Starship stage reached an altitude of about 90 miles and a speed of about 15,000 miles per hour. For a spacecraft to reach orbit, it needs to accelerate to about 17,000 miles per hour.

Frost lines have appeared on Starship and the Super Heavy booster as methane and liquid oxygen flow into the rocket’s tanks.

It’s sunrise in Cameron County, Texas, but weather reports show cloudy conditions persist. We’ll see if weather is going to keep Starship on the beach, but SpaceX says it has started loading propellants into the rocket.

Launch time is now 9:25 a.m. Eastern. SpaceX says winds are still a concern that could cause a liftoff to be called off, but it will go ahead with loading of propellants in the rocket.

SpaceX pushed the launch time back a little more, to 9:10 a.m. Eastern. They have until 9:50 to try today.

SpaceX has just announced the new target launch time is 9:02 a.m. Eastern, and the company said on X that it is clearing some boats from a safety zone in the Gulf of Mexico. Cameras from a number of space enthusiast websites like NASASpaceflight that are pointing at the rocket show there is still no frost on its side, so the loading of ultracold methane and liquid oxygen propellants has not yet begun.

As SpaceX prepares for its third flight of Starship, other space efforts have experienced difficulties this week. On Wednesday, Kairos, a rocket from a Japanese startup called Space One, exploded moments into its first launch attempt. And Xinhua, a Chinese state news agency, said on Thursday that two Chinese satellites were lost after a rocket failed to reach the planned orbit.

In a posting on the social media site X, SpaceX says that it is aiming for launch at 8:30 a.m. Eastern time, or 30 minutes into the 110-minute launch window. There is a 70 percent chance of favorable weather. There have been concerns of high winds, especially at higher altitudes.

What is Starship?

For Elon Musk, Starship is really a Mars ship. He envisions a fleet of Starships carrying settlers to the red planet in the coming years.

And for that eventual purpose, Starship, under development by Mr. Musk’s SpaceX rocket company , has to be big. Stacked on top of what SpaceX calls a Super Heavy booster, the Starship rocket system will be, by pretty much every measure, the biggest and most powerful ever.

It is the tallest rocket ever built — 397 feet tall, or about 90 feet taller than the Statue of Liberty including the pedestal.

And it has the most engines ever in a rocket booster: The Super Heavy has 33 of SpaceX’s powerful Raptor engines sticking out of its bottom. As those engines lift Starship off the launchpad in South Texas, they will generate 16 million pounds of thrust at full throttle.

NASA’s new Space Launch System rocket , which made its first flight in November 2022, holds the current record for the maximum thrust of a rocket: 8.8 million pounds. The maximum thrust of the Saturn V rocket that took NASA astronauts to the moon during the Apollo program was relatively paltry: 7.6 million pounds.

An even more transformative feature of Starship is that it is designed to be entirely reusable. The Super Heavy booster is to land much like those for SpaceX’s smaller Falcon 9 rockets, and Starship will be able to return from space belly-flopping through the atmosphere like a sky diver before pivoting to a vertical position for landing.

That means all of the really expensive pieces — like the 33 Raptor engines in the Super Heavy booster and six additional Raptors in Starship itself — will be used over and over instead of thrown away into the ocean after one flight.

That has the potential to cut the cost of sending payloads into orbit — to less than $10 million to take 100 tons to space, Mr. Musk has predicted.

Starship and Super Heavy are shiny because SpaceX made them out of stainless steel, which is cheaper than using other materials like carbon composites. But one side of Starship is coated in black tiles to protect the spacecraft from the extreme heat that it will encounter if it gets far enough in its flight to re-enter the atmosphere.

Here is what to know about Thursday’s SpaceX test flight.

The third try was closer to the charm for Elon Musk and SpaceX, as the company’s flight test of the mammoth Starship rocket launched on Thursday and traveled almost halfway around the Earth before it was lost as it re-entered the atmosphere.

The flight achieved some key milestones in the development of the vehicle, which could alter the future of space transportation and help NASA return astronauts to the moon.

This particular flight did not, by design, make it all the way around the Earth. At 9:25 a.m. Eastern time, Starship, the biggest and most powerful rocket ever to fly, lifted off from the coast of South Texas. About 45 minutes later it started its re-entry, but communications were lost a few minutes after that. The company said the rocket was lost before attempting to splash down in the Indian Ocean, a sign that more work needs to be completed on the vehicle.

That reusability gives SpaceX the potential to drive down the cost of lofting satellites and space telescopes, as well as people and the things they need to live in space.

Here’s what else to know:

Thursday’s flight demonstrated new capabilities for Starship. In addition to reaching orbital speeds, the Starship vehicle opened and closed its payload door and managed to move several tons of liquid oxygen between two tanks within the rocket, a key test needed for future missions.

The Starship system consists of two stages — the Super Heavy rocket booster and the upper-stage spacecraft, which is also called Starship. The company intends both to be fully reusable in the future. Read more about Starship .

Thursday’s launch was the third of Starship. Here’s a recap of what happened last time .

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Livonia park to get new play space this spring

Ada-compliant play space coming to mies park.

Kayla Clarke , Senior Web Producer

LIVONIA, Mich. – Mies Park in Livonia is getting a new ADA-compliant play space this spring.

The play space was purchased in part to a $200,000 grant from GameTime, a play equipment manufacturer, through the mParks 2023 Statewide Funding Initiative.

“A new and ADA-compliant play area was long overdue for the residents around Mies Park,” said Ted Davis, superintendent of Livonia Parks and Recreation. “As part of the NDS Network, we will be able to utilize best practices and have a positive impact on community health.”

The park is located north of Grant Elementary School on West Chicago Street. It will become a PlayCore National Demonstration Site (NDS) Network play area.

“We’re very excited for this play area to open,” Mayor Maureen Miller Brosnan said. “The previous play area lacked accessibility and features that our residents deserve, and this new space will provide a spot for families to enjoy and create memories for years to come.”

Crews began removing the old play area equipment in March. The new equipment will be delivered in early April. It should take about six weeks to install the new equipment, depending on weather.

Wayne County contributed $65,000 toward the $400,000 cost of the play area. Livonia received an mParks Promotes Play Initiative Award for the project at the Michigan Recreation and Parks Annual Conference.

Copyright 2024 by WDIV ClickOnDetroit - All rights reserved.

About the Author:

Kayla clarke.

Kayla is a Web Producer for ClickOnDetroit. Before she joined the team in 2018 she worked at WILX in Lansing as a digital producer.

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Watch: Local 4 News at 6 p.m. : Mar 24, 2024

Watch: flashpoint on local 4 : mar 24, 2024, watch: weekend morning show on local 4 : mar 24, 2024, breakfast with bunny in birmingham, meet justin merriweather from the crust station.

Full Worm Moon brings 1st lunar eclipse of 2024 tonight. Here's how to see it

Two weeks before the total solar eclipse, during the overnight hours of March 24 - 25, it will be the moon's turn to undergo an eclipse.

During the next two weeks, there will be two eclipses on the astronomical docket. The main event, of course, will be the Great North American Eclipse on April 8 that will stretch from the Pacific coast of Mexico, on to Texas and across southern and eastern portions of the United States and Atlantic Canada, before coming to an end over the north Atlantic Ocean. 

But two weeks before the total solar eclipse , during the overnight hours of March 24-25, it will be the moon's turn to undergo an eclipse; a prelude to grand event coming our way in early April. That final full moon before the total solar eclipse, March's Worm Moon , will quietly slip into Earth's outer shadow, known as the penumbra. 

The continents of North and South America are in the best position to see this lunar eclipse , as it occurs high in their sky while the night of March 24 transitions to March 25. The moon will take 4 hours and 40 minutes to glide across the pale outer fringe ( penumbra ) of Earth's shadow, never reaching the shadow's dark umbra.

Related: March full moon 2024: The Worm Moon gets eclipsed Read more: Lunar eclipses 2024: When, where & how to see them

Looking for a telescope to see the features of the full Worm Moon up close? We recommend the  Celestron Astro Fi 102  as the top pick in our  best beginner's telescope guide . Don't forget a  moon filter !

Both the lunar and solar eclipses are, of course, related. A solar eclipse can occur only when the moon is at a node of its orbit. (The nodes are the two points where the moon's path on the sky crosses the sun's path, called the ecliptic). During the solar eclipse on April 8, the moon will cross the ecliptic from south to north. But a half orbit earlier, on March 24-25, the moon will cross the opposite node from north to south, encountering the Earth's shadow. The timeframe when this geometry can allow for eclipses to occur is called an " eclipse season " and in this case runs from March 16 through April 23. All this is a fine example of how an eclipse season works. 

In this particular case the moon is going to pass very deep into the penumbra . In fact, at the moment of the deepest phase/greatest eclipse (7:12 UT) the penumbra will reach to an extent of 95.8 percent across the lunar disk. Put another way, the lowermost limb of the moon will be 282 miles (453 km) away from the unseen edge of the Earth's umbra. 

However, penumbral eclipses are rather subtle events which are usually difficult to detect; the shadow is pale. In fact, first contact with the penumbral shadow is all but impossible to detect. But a little over an hour later, those with exceptionally acute perception might be able to detect an ever-so-slight shading of the moon's lower left limb.

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Roughly for about a half hour on either side of the time of maximum eclipse, at least 70 percent of the moon's diameter will be immersed in the shadow; a distinct diminution of light corresponding to a "smudged" or "soiled" appearance; a slight grayness on the lower part of the moon should then be fairly plain to see. 

Admittedly, however, a rather underwhelming event.

The schedule 

Our timetable below gives the moments for the key events of the eclipse for five time zones: Eastern, Central, Mountain, Pacific and Hawaii. All times are for the calendar date of March 25, except when accompanied by an asterisk (*), in which case the calendar date is March 24.

For the eastern U.S., maximum darkening occurs about a couple of hours before the break of dawn on March 25. Along the West Coast, it will be just past midnight, while for Alaska and Hawaii it will be during the mid-to-late evening hours of Sunday, March 24. 

The penumbral eclipse from the moon  

It might be easier to understand why the penumbral shadow of Earth is so faint, by imagining actually being on the moon when Monday's event takes place. An astronaut on the moon during this time will see an eclipse of the sun , but it would all depend on where on the moon our hypothetical moonwalker is located. 

Near the moon's upper limb is the region known as Mare Frigoris — the "Sea of Cold." From here, the Earth's silhouette will appear to take a small nick out of the top of the sun; hardly enough to cause any noticeable diminishing of light on the surrounding lunar landscape. That's why the upper part of the full moon will appear to shine normally. 

In contrast, as seen from Tycho, the famous brilliant lunar impact crater whose rays make it appear like a sunflower on the southern part of the moon, Earth will appear to cover more than nine-tenths of the sun's diameter; consequently, the brilliant solar illumination of the surrounding lunar landscape will turn considerably more somber. 

And this diminished effect of the glare and illumination of sunlight on the moon's surface is precisely what assiduous sky watchers will be trying to detect during the deepest phase of the eclipse when concentrating their gaze toward the lower rim of the moon during the maximum phase of Monday's early eclipse. 

Coming attractions 

Another lunar eclipse is scheduled for later this summer. On the evening of Sept. 17, the moon will slide through the lower part of the Earth's shadow , with its uppermost limb giving a glancing blow to the dark umbral shadow of Earth. At greatest eclipse, 8.5-percent of the moon's diameter will be within the umbra, giving the impression that the top of the moon is slightly dented. 

Next year, on the night of March 13-14, 2025, the moon will undergo a total eclipse. For 65 minutes, the moon will become completely immersed in the Earth's shadow ; always a most interesting, and usually, colorful spectacle. Once again, the Americas will have a ringside seat, with all the action taking place high in the late winter sky; during predawn hours in the East and around midnight in the West. 

Mark your calendars!

If you're interested in taking photographs of the penumbral lunar eclipse of the Full Worm Moon, check out our helpful  how to photograph the moon  guide for the best lunar photography tips and tricks. We also have guides to the  best cameras for astrophotography  and  best lenses for astrophotography  if you need to gear up for this or other celestial events.

Joe Rao serves as an instructor and guest lecturer at New York's  Hayden Planetarium . He writes about astronomy for  Natural History magazine , the  Farmers' Almanac  and other publications. 

Join our Space Forums to keep talking space on the latest missions, night sky and more! And if you have a news tip, correction or comment, let us know at: [email protected].

Joe Rao is Space.com's skywatching columnist, as well as a veteran meteorologist and eclipse chaser who also serves as an instructor and guest lecturer at New York's Hayden Planetarium. He writes about astronomy for Natural History magazine, the Farmers' Almanac and other publications. Joe is an 8-time Emmy-nominated meteorologist who served the Putnam Valley region of New York for over 21 years. You can find him on Twitter and YouTube tracking lunar and solar eclipses, meteor showers and more. To find out Joe's latest project, visit him on Twitter.

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