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Lunar lander (disambiguation)

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37-652: A lunar lander is a space vehicle designed to land on the Moon. Lunar Lander may also refer to: Lunar lander A lunar lander or Moon lander is a spacecraft designed to land on the surface of the Moon . As of 2024, the Apollo Lunar Module is the only lunar lander to have ever been used in human spaceflight, completing six lunar landings from 1969 to 1972 during the United States' Apollo Program . Several robotic landers have reached

74-417: A partial success occurs when a spacecraft lands intact on the Moon but its in-situ operations is compromised as a result of the landing process for any reason. Landing on any Solar System body comes with challenges unique to that body. The Moon has relatively high gravity compared to that of asteroids or comets—and some other planetary satellites —and no significant atmosphere. Practically, this means that

111-548: A brief hop off the lunar surface. The Apollo Lunar Module was the lunar lander for the United States' Apollo program . As of 2024, it is the only crewed lunar lander. The Apollo program completed six successful lunar soft-landings from 1969 until 1972; a seventh lunar landing attempt by the Apollo program was aborted when Apollo 13 's service module suffered explosive venting from its oxygen tanks. The LK lunar module

148-586: A follow-up robotic lander named Beresheet 2 . India's Chandrayaan Programme conducted an unsuccessful robotic lunar soft-landing attempt on 6 September 2019 as part of its Chandrayaan-2 spacecraft with the lander crashing on the Moon's surface. On 23 August 2023, the program's follow-up Chandrayaan-3 lander achieved India's first robotic soft-landing and later conducted a brief hop on 3 September 2023 to test technologies required for Indian lunar sample return mission called Chandrayaan-4 . Japan's ispace (not to be confused with China's i-Space ) attempted

185-776: A group of entrepreneur-philanthropists: the Patrick & Lina Drahi family foundation, Morris Kahn, and the Moshal Space Foundation. At World Space Week in Dubai, in October 2021, Israel and the UAE ministers of science and technology announced plans for cooperation on the mission. Said Kahn to the Global Investment Forum in Dubai, "It would be wonderful if we could develop a space program that would be

222-516: A lunar soft-landing by its Hakuto-R Mission 1 robotic lander on 25 April 2023. The attempt was unsuccessful and the lander crashed into the lunar surface. The company has plans for another landing attempt in 2024. Russia's Luna-Glob program, the successor program to the Soviet Union's Luna program , launched the Luna 25 lunar lander on 10 August 2023; the probe's intended destination was near

259-401: A much stricter range of between −40 and 50 °C (−40 and 122 °F), and human comfort requires a range of 20 to 24 °C (68 to 75 °F). This means that the lander must cool and heat its instruments or crew compartment. The length of the lunar night makes it difficult to use solar electric power to heat the instruments, and nuclear heaters are often used. Achieving a soft landing

296-424: A similar method. Airbag methods are not typical. For example, NASA's Surveyor 1 probe, launched around the same time as Luna 9, did not use an airbag for final touchdown. Instead, after it arrested its velocity at an altitude of 3.4m it simply fell to the lunar surface. To accommodate the fall the spacecraft was equipped with crushable components that would soften the blow and keep the payload safe. More recently,

333-482: Is in contrast to a small asteroid, in which "landing" is more often called "docking" and is a matter of rendezvous and matching velocity more than slowing a rapid descent. Since rocketry is used for descent and landing, the Moon's gravity necessitates the use of more fuel than is needed for asteroid landing. Indeed, one of the central design constraints for the Apollo program's Moon landing was mass (as more mass requires more fuel to land) required to land and take off from

370-428: Is the overarching goal of any lunar lander, and distinguishes landers from impactors, which were the first type of spacecraft to reach the surface of the Moon. All lunar landers require rocket engines for descent. Orbital speed around the Moon can, depending on altitude, exceed 1500 m/s. Spacecraft on impact trajectories can have speeds well in excess of that. In the vacuum the only way to decelerate from that speed

407-401: Is to use a rocket engine. The stages of landing can include: Lunar landings typically end with the engine shutting down when the lander is several feet above the lunar surface. The idea is that engine exhaust and lunar regolith can cause problems if they were to be kicked back from the surface to the spacecraft, and thus the engines cut off just before touchdown. Engineers must ensure that

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444-651: The Beresheet 2 Moon mission would launch in 2024, consisting of an orbiter and two landers. SpacelL is leading the program with the support of the Israel Space Agency. It will have a budget of US$ 100 million, similar to that of Beresheet 1 , and will include more international collaboration, with the United Arab Emirates as one of seven countries expressing interest. In July 2021, the Beresheet 2 program raised 70 million dollars from

481-549: The Lunokhod robotic lunar rover in 1970 and 1973. Luna achieved a total of seven successful soft-landings out of 27 landing attempts. The United States' Surveyor program first soft-landed Surveyor 1 on June 2, 1966, this initial success was followed by four additional successful soft-landings, the last occurring on January 10, 1968. The Surveyor program achieved a total of five successful soft landings out of seven landing attempts through January 10, 1968. Surveyor 6 even did

518-497: The Moon in 2025. As the spacecraft reaches the Moon, it will split into three: the mothership (orbiter) and two landers that will be released for landing at different locations on the Moon. The orbiter will continue to orbit the Moon on a long-term multi-year mission. This will be the first-ever dual-lander deployment mission, with the smallest landers to ever soft-land on the Moon. The Beresheet 2 Orbiter will give many students worldwide

555-624: The United States , the Soviet Union cancelled both the N1 Rocket and the LK Lunar Module programs without any further development. The Chinese Lunar Exploration Program (also known as the Chang'e project) includes robotic lander, rover, and sample-return components; the program realized an initial successful lunar soft-landing with the Chang'e 3 spacecraft on 14 December 2013. As of 2023,

592-614: The 5th country to soft land on the moon. In January 2024, the first mission of the NASA-funded CLPS program, Peregrine Mission One , suffered a fuel leak several hours after launch, resulting in losing the ability to maintain attitude control and charge its battery, thereby preventing it from reaching lunar orbit and precluding a landing attempt. The probe subsequently burnt up in Earth's atmosphere. The second CLPS probe Odysseus landed successfully on 22 February 2024 on

629-419: The 67-inch (170 cm) probes touched the surface. During Apollo 11 Neil Armstrong however touched down very gently by firing the engine until touchdown; some later crews shut down the engine before touchdown and felt noticeable bumps on landing, with greater compression of the landing struts. Beresheet 2 Beresheet 2 is a planned private space mission intended to land two spacecraft on

666-468: The CLEP has achieved three successful soft-landings out of three landing attempts, namely Chang'e 3 , Chang'e 4 and Chang'e 5 . Chang'e 4 made history by making humanity's first ever soft-landing on the far side of the moon. Israel's SpaceIL attempted a robotic lunar landing by its Beresheet lander on 4 April 2019; the attempt failed. As of 2023, SpaceIL has plans for another soft-landing attempt using

703-582: The Chinese Chang'e 3 lander used a similar technique, falling 4m after its engine shut down. Perhaps the most famous lunar landers, those of the Apollo Program , were robust enough to handle the drop once their contact probes detected that landing was imminent. The landing gear was designed to withstand landings with engine cut-out at up to 10 feet (3.0 m) of height, though it was intended for descent engine shutdown to commence when one of

740-462: The Moon, marking the United States' first unmanned lunar soft-landing in over 50 years. This mission is the first private -NASA partnership to land on the Moon and the first landing using cryogenic propellants . However, the mission experienced some anomalies, including tipping-over on one side on the lunar surface; an off-nominal initial lunar orbit, a non-functioning landing LIDAR instrument, and apparently low communication bandwidth . Later it

777-399: The Moon. The lunar thermal environment is influenced by the length of the lunar day. Temperatures can swing between approximately −250 to 120 °C (−418.0 to 248.0 °F) (lunar night to lunar day). These extremes occur for fourteen Earth days each, so thermal control systems must be designed to handle long periods of extreme cold or heat. Most spacecraft instruments must be kept within

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814-513: The South pole-Aitken basin on the lunar far side at 22:23 UTC on 1 June 2024. After the completion of sample collection and the placement of the sample on the ascender by the probe's robotic drill and robotic arm, the ascender successfully took off from atop the lander portion of the probe at 23:38 UTC on 3 June 2024. The ascender docked with the Chang'e 6 service module (the orbiter) in lunar orbit at 06:48 UTC on 6 June 2024 and subsequently completed

851-415: The atmospheres of the bodies on which they landed to slow their descent using parachutes, reducing the amount of fuel they were required to carry. This in turn allowed larger payloads to be landed on these bodies for a given amount of fuel. For example, the 900-kg Curiosity rover was landed on Mars by a craft having a mass (at the time of Mars atmospheric entry) of 2400 kg, of which only 390 kg

888-426: The first million-dollar funding for the spacecraft. On 5 February 2020, Shimon Sarid was appointed as CEO of SpaceIL. In this role, Sarid will lead the Beresheet 2 project. In July 2020, engineer Yoav Heichal, former chief engineer of Better Place Ltd, has joined the program as a structural engineer. The program was officially launched by Israel's former president, Reuven Rivlin , on 9 December 2020 and announced that

925-462: The lunar south pole, but on 19 August 2023 the lander crashed on the Moon's surface. Japan's Smart Lander for Investigating Moon made a successful lunar landing with wrong attitude, bleak signal bandwidth and even after losing one of its engines during descent but within 100 m (330 ft) of its landing spot on 19 January 2024. It carried two small LEV rovers on board deployed sepqrately, just before SLIM's touchdown. It's landing made Japan

962-431: The main aim of its mission. China launched Chang'e 6 from China's Hainan Island on 3 May 2024; this mission seeks to conduct the first lunar sample return from the far side of the Moon . This is China's second lunar sample return mission, the first was successfully completed by Chang'e 5 when it returned 1.731 kg of lunar near side material to the Earth on 16 December 2020. The Chang'e 6 lander successfully landed in

999-594: The only method of descent and landing that can provide sufficient thrust with current technology is based on chemical rockets . In addition, the Moon has a long solar day . Landers will be in direct sunlight for more than two weeks at a time, and then in complete darkness for another two weeks. This causes significant problems for thermal control. As of 2019, space probes have landed on all three bodies other than Earth that have solid surfaces and atmospheres thick enough to make aerobraking possible: Mars , Venus , and Saturn's moon Titan . These probes were able to leverage

1036-477: The opportunity to learn the basics of space engineering and participate in deep-space science. Through its innovative design, the Beresheet 2 Orbiter will serve as the first-ever – worldwide interactive space education system. The project will include multiple educational activities for all ages and an outreach program that will connect and push these messages to the public in the partnering countries. The mission

1073-533: The surface, and some have returned samples to Earth. The design requirements for these landers depend on factors imposed by the payload , flight rate, propulsive requirements, and configuration constraints. Other important design factors include overall energy requirements, mission duration, the type of mission operations on the lunar surface, and life support system if crewed. The relatively high gravity (higher than all known asteroids, but lower than all Solar System planets) and lack of lunar atmosphere negates

1110-466: The table; they are added as their initial robotic and/or crewed landers are launched from Earth. The term landing attempt as used here includes any mission that was launched with the intent to land on the Moon, including all missions which failed to reach lunar orbit for any reason. A landing attempt by a spacecraft is classified as full success if it lands intact on the Moon and is situated in its designed orientation/attitude and fully functional, while

1147-548: The transfer of the sample container to the Earth rentry module at 07:24 UTC on the same day. The orbiter then left lunar orbit on 20 June 2024 with the returner, which landed in Inner Mongolia on 25 June 2024, completing China's lunar far side sample return mission. The following table details the success rates of past and on-going lunar soft-landing attempts by robotic and crewed lunar-landing programs. Landing programs which have not launched any probes are not included in

Lunar lander (disambiguation) - Misplaced Pages Continue

1184-539: The use of aerobraking , so a lander must use propulsion to decelerate and achieve a soft landing . The Luna program was a series of robotic impactors, flybys, orbiters, and landers flown by the Soviet Union between 1958 and 1976. Luna 9 was the first spacecraft to achieve a soft landing on the Moon on February 3, 1966, after 11 unsuccessful attempts. Three Luna Spacecraft returned lunar soil samples to Earth from 1972 to 1976. Two other Luna spacecraft soft-landed

1221-481: The vehicle is protected enough to ensure that the fall without thrust does not cause damage. The first soft lunar landing, performed by the Soviet Luna 9 probe, was achieved by first slowing the spacecraft to a suitable speed and altitude, then ejecting a payload containing the scientific experiments. The payload was stopped on the lunar surface using airbags, which provided cushioning as it fell. Luna 13 used

1258-663: Was announced by the SpaceIL voluntary association , shortly after the conclusion of the first Beresheet mission in April 2019. It was announced on 26 June 2019, that the mission will not target the Moon, and instead it will be to another undisclosed object. On 25 November 2019, it was simultaneously announced that the Moon would indeed be the target of Beresheet 2 , and that SpaceIL plans to send another lander to Mars. On 16 January 2020, SpaceIL announced that they have officially started to work on Beresheet 2 , as they were given

1295-432: Was fuel. In comparison, the much lighter (292 kg) Surveyor 3 landed on the Moon in 1967 using nearly 700 kg of fuel. The lack of an atmosphere, however, removes the need for a Moon lander to have a heat shield and also allows aerodynamics to be disregarded when designing the craft. Although it has much less gravity than Earth, the Moon has sufficiently high gravity that descent must be slowed considerably. This

1332-404: Was revealed that, though it landed successfully, one of the lander's legs broke upon landing and it tilted up on other side, 18° due to landing on a slope, but the lander survived and payloads are functioning as expected. EagleCam was not ejected prior to landing. It was later ejected on 28 February but was partially failure as it returned all types of data, except post IM-1 landing images that were

1369-545: Was the lunar lander developed by the Soviet Union as a part of several Soviet crewed lunar programs . Several LK lunar modules were flown without crew in low Earth orbit , but the LK lunar module never flew to the Moon, as the development of the N1 Rocket Launch Vehicle required for the lunar flight suffered setbacks (including several launch failures), and after the first human Moon landings were achieved by

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