Chronology of Space Exploration |
Contents
- Pioneer 5 - USA Solar Monitor - (March 11, 1959)
Space probe is now in a solar orbit.
- Pioneer 6 - USA Solar Probe - 63.4 kg - (December 16, 1965 - Present)
The Probe is still transmitting from solar orbit.
- Pioneer 7 - USA Solar Probe - 63 kg - (August 17, 1966 - ?)
Solar-orbiting probe was recently turned off.
- Pioneer 8 - USA Solar Probe - 63 kg - (December 13, 1967 - Present)
Solar probe is still transmitting from solar orbit.
- Pioneer 9 - USA Solar Probe - 63 kg - (November 8, 1968 - March 3, 1987)
Still in solar orbit. Died on March 3, 1987.
- Skylab - USA Space Station - (May 26, 1973)
Skylab, which was America's first space station, was manned for 171 days by three crews during 1973 and 1974. The space station included the Apollo Telescope Mount (ATM), which astronauts used to take more than 150,000 images of the Sun. Skylab was abandoned in February 1974 and re-entered the Earth's atmosphere in 1979.
- Explorer 49 - USA Solar Probe - 328 kg - (June 10, 1973)
Solar physics probe placed in lunar orbit.
- Helios 1 - USA & West Germany Solar Probe - 370 kg - (December 10, 1974 - 1975)
Solar probe is in a solar orbit; came within 47 million kilometers of the Sun.
- Solar Maximum Mission - USA Solar Probe - (February 14, 1980)
The Solar Maximum Mission (SMM) was designed to provide coordinated observations of solar activity, in particular solar flares, during a period of maximum solar activity. The spacecraft suffered an on-orbit failure. A repair mission on STS-41C in 1984, during which shuttle astronauts rendezvoused with SMM, was successful. SMM collected data until Nov. 24, 1989, and re-entered on Dec. 2, 1989.
- Yohkoh - Japan/USA/England Solar Probe - (August 31, 1991)
This spacecraft studied high-energy radiation from solar flares.
- Helios 2 - USA & West Germany Solar Probe - (January 16, 1976)
Solar probe came within 43 million kilometers of the Sun.
- Ulysses - USA & Europe Solar Flyby - 370 kg - (October 6, 1990)
The Ulysses spacecraft is an international project to study the
poles of the Sun and interstellar space above and below the poles. It
used Jupiter as a gravity assist to swing out of the
ecliptic plane and
onward to the poles of the Sun. The Jupiter flyby was on February 8, 1992.
The first solar polar passage was in June 1994.
The spacecraft passed the solar equator in February 1995 and passed
over the north pole in June 1995.
- SOHO - Europe Solar Probe - (December 12, 1995)
The main scientific purpose of SOHO (Solar and Helispheric Observatory)
is to study the Sun's internal structure, by observing velocity
oscillations and radiance variations, and to look at the physical
processes that form and heat the Sun's corona and that give rise to the
solar wind, using imaging and spectroscopic diagnosis of the plasma in
the Sun's outer regions coupled with in-situ measurements of the solar
wind. SOHO will be put into a "halo orbit" around the L1 Lagrange point
-- the point 1.5 million kilometers (932,000 miles) away from us
at which the gravitational pull of the Earth balances that of the Sun.
- Mariner 10 - USA Mercury/Venus Flyby - 526 kg - (November 3, 1973 - March 24, 1975)
Mariner 10 was the first dual planet mission. It flew past Venus on February
5, 1974 for a gravity assist to the planet Mercury. Mariner 10 was the
first spacecraft to have an imaging system.
It flew past Mercury 3 times on March 29, 1974,
September 21, 1974, and March 16, 1975. These three encounters produced over
10,000 pictures with 57% planet coverage. It recorded surface temperatures
ranging from 187°C to -183°C on the day and night sides. A
weak magnetic field was detected but it failed to detect an atmosphere.
Mariner 10 is now in a solar orbit.
- Venera 1 - USSR Venus Flyby - 643.5 kg - (February 12, 1961)
- Mariner 2 - USA Venus Flyby - 201 kg - (August 27, 1962 - January 3, 1963)
On December 14, 1962, Mariner 2 arrived at Venus at a distance of 34,800 kilometers
and scanned its surface with infrared and microwave
radiometers, capturing data that showed Venus's surface to be
about 425°C (800°F). Three weeks after the Venus flyby
Mariner 2 went off the air on January 3, 1963. It is now in a solar orbit.
- Zond 1 - USSR Venus Flyby - 890 kg - (April 2, 1964)
Communication lost en route; now in a solar orbit.
- Venera 2 - USSR Venus Flyby - 962 kg - (November 12, 1965 - 1966)
Communications failed just before arrival. Now in solar orbit.
- Venera 3 - USSR Venus Atmospheric Probe - 958 kg - (November 16, 1965 - 1966)
Communications failed just before atmosphere entry. Crashed on Venus.
- Venera 4 - USSR Venus Atmospheric Probe - 1,104 kg - (June 12, 1967)
Venera 4 arrived at Venus on October 18, 1967. This was the first probe
to be placed directly into the atmosphere and to return atmospheric data.
It showed that the atmosphere was 90-95% carbon dioxide. It detected no
nitrogen. The surface temperature reading was 500°C and pressure
reading was 75 bar. It was crushed by the pressure on Venus before it
reached the surface.
- Mariner 5 - USA Venus Flyby - 244 kg - (June 14 to November, 1967)
Mariner 5 arrived at Venus on October 19, 1967, one day after Venera 4. It
passed within 3,900 kilometers of the planet's surface. It studied the Venusian
magnetic field and found that its atmosphere was composed of 85-99%
carbon dioxide. It is now in a solar orbit.
- Venera 5 - USSR Venus Atmosphere Probe - 1,128 kg - (January 5, 1969)
Venera 5 arrived at Venus on May 16, 1969. Along with Venera 6, atmospheric
data was returned indicating an atmosphere composed of 93-97% carbon
dioxide, 2-5% nitrogen, and less than 4% oxygen. The probe
returned data down to within 26 kilometers of surface and was then lost -
crushed by the pressure on Venus.
- Venera 6 - USSR Venus Atmosphere Probe - 1,128 kg - (January 10, 1969)
Venera 6 arrived at Venus on May 17, 1969. Along with Venera 5, atmospheric
data was returned indicating an atmosphere composed of 93-97% carbon
dioxide, 2-5% nitrogen, and less than 4% oxygen. The probe
returned data down to within 11 kilometers of surface and was then lost -
crushed by the pressure on Venus.
- Venera 7 - USSR Venus Lander - 1180 kg - (August 17, 1970)
Venera 7 arrived at Venus on December 15, 1970 and was the first
successful landing of a spacecraft on another planet. It used an
external cooling device which allowed it to send back 23 minutes of data.
The surface temperature was 475°C, and surface pressure was 90 bar.
- Venera 8 - USSR Venus Lander - 1,180 kg - (March 27, 1972)
Venera 8 arrived at Venus on July 22, 1972. It measure wind speed variations
as it descended through the atmosphere: 100 meters/second above 48 kilometers, 40-47 meters/second at
42-48 kilometers, and 1 meter/second below 10 kilometers. It returned data for 50 minutes after
it landed.
- Mariner 10 - USA Mercury/Venus Flyby - 526 kg - (November 3, 1973 - March 24, 1975)
Mariner 10 was the first dual planet mission. It flew past Venus on February
5, 1974 for a gravity assist to the planet Mercury. Mariner 10 was the
first spacecraft to have an imaging system. It recorded circulation in
the Venusian atmosphere and showed the temperature of the cloud tops to
be -23°C. It is now in a solar orbit.
- Venera 9 - USSR Venus Orbiter and Lander - 4,936 kg (June 8, 1975)
Venera 9 arrived at Venus on October 22, 1975, three days before the
arrival of its sister spacecraft, Venera 10. Both orbiters photographed
the clouds and looked at the upper atmosphere. Differences in cloud
layers were discovered at 57-70 kilometers, 52-57 kilometers and 49-52
kilometers from the surface. The lander arrived on the Venusian
surface on November 22, 1975. During a period of 53 minutes, it
transmitted the first black and white images of the planets surface. It
showed sharp-edged flat rocks and a basaltic terrain. The probe in now in
a Venus orbit.
- Venera 10 - USSR Venus Orbiter and Lander - 5,033 kg - (June 14, 1975)
Venera 10 arrived at Venus on October 25, 1975, three days after the
arrival of its sister spacecraft Venera 9. Both orbiters photographed
the clouds and looked at the upper atmosphere. Differences in cloud
layers were discovered at 57-70 kilometers, 52-57 kilometers and 49-52
kilometers from the surface. The lander arrived on the Venusian
surface on November 25, 1975. During a period of 65 minutes, it
transmitted black and white images of the planets surface. The terrain
was more eroded than at the Venera 9 landing site.
- Pioneer Venus 1 - USA Venus Orbiter - 582 kg - (May 20, 1978 - 1992)
Pioneer Venus 1 (also known as Pioneer 12) arrived at Venus
on December 4, 1978. It operated continuously from 1978 until October 8,
1992, when contact was lost with the spacecraft. It was expected
to burn up in the Venusian atmosphere 6 days later. The
orbiter was the first spacecraft to use radar in mapping the planet's
surface. The electron field experiment detected radio bursts presumably
caused by lightening. No magnetic field was detected. From 1978 to 1988 the
amount of sulfur dioxide in the atmosphere decreased by 10%. The reason
for this decrease is unknown. Perhaps a large volcano erupted just
before the orbiter arrived and the amount of sulfur dioxide slowly
declined.
- Pioneer Venus 2 - USA Venus Atmosphere Probe - 904 kg - (August 8, 1978)
Pioneer Venus 2 (also know as Pioneer 13) carried four atmospheric probes.
One large and three smaller ones. They arrived at Venus on December 9, 1978
and plunged into the atmosphere. The four probes descended through the
atmosphere by parachute while the spacecraft burned up high in the
atmosphere. At a height of 70-90 kilometers the probes encountered a fine haze
layer. Between 10-50 kilometers there was little atmospheric
convection and below 30 kilometers the
atmosphere was clear.
- Venera 11 - USSR Venus Flyby/Lander - 4,940 kg - (September 9, 1978)
Venera 11 landed on Venus on December 25, 1978, and returned data for 95
minutes. The imaging systems failed.
- Venera 12 - USSR Venus Flyby/Lander - 4,940 kg - (September 14, 1978)
Venera 12 landed on December 21, 1978 and returned data for 110 minutes.
Electrical discharges, probably from lightning, were recorded.
- Venera 13 - USSR Venus Flyby/Lander - 5,000 kg - (October 30, 1981)
Venera 13 landed on Venus on March 1, 1982. It returned black and white, and
the first color panoramic views of the Venusian surface. It also
conducted soil analysis using an x-ray fluorescence spectrometer. The
sample was determined to be leucite basalt, a rare rock type on the Earth.
- Venera 14 - USSR Venus Flyby/Lander - 5,000 kg - (November 4, 1981)
Venera 14 landed on Venus on March 5, 1982. It returned black and white, and
color panoramic views of the Venusian surface. It also
conducted soil analysis using an x-ray fluorescence spectrometer. The
sample was determined to be tholeiitic basalt similar to that found at
mid-ocean ridges on the Earth.
- Venera 15 - USSR Venus Orbiter - 5,000 kg - (June 2, 1983)
Venera 15 arrived at Venus on October 10, 1983. Its high-resolution imaging
system produced images at 1-2 kilometers in resolution. Venera 15 and 16 produced
a map of the northern hemisphere from the pole to 30°N. They found several
hot spots, possibly caused from volcanic activity.
- Venera 16 - USSR Venus Orbiter - 5,000 kg - (June 7, 1983)
Venera 16 arrived at Venus on October 14, 1983. Its high-resolution imaging
system produced images at 1-2 kilometers in resolution. Venera 15 and 16 produced
a map of the northern hemisphere from the pole to 30°N. They found several
hot spots, possibly caused from volcanic activity.
- Vega 1 - USSR Venus/Comet Halley Flyby - 4,000 kg - (December 15, 1984)
Vega 1 flew past Venus on June 11, 1985 on its way for a flyby with comet
Halley. It dropped off a Venera style lander and a balloon to investigate
the Venusian middle cloud layer. The lander's soil experiment failed. The
balloon floated in the atmosphere for about 48 hours at an altitude of 54
kilometers. Between Vega 1 and 2, downward gusts of 1 meter/second were
encountered and wind velocities of up to 240 kilometers/hour. The Comet
Halley flyby took place on March 6, 1986. The Vega 1 probe is now in a
solar orbit.
- Vega 2 - USSR Venus/Comet Halley Probe - 4,000 kg - (December 21, 1984)
Vega 2 flew past Venus on June 15, 1985 on its way for a flyby with comet
Halley. It dropped off a Venera style lander and a balloon to investigate
the Venusian middle cloud layer. The lander's soil experiment sampled
anorthosite-troctolite which is found in the lunar highlands but is rare
on Earth. The balloon floated in the atmosphere for about 48 hours at an
altitude of 54 kilometers. Between Vega 1 and 2, downward gusts of 1
meter/second were encountered and wind velocities of up to 240
kilometers/hour. The Comet Halley flyby took place on March 9, 1986.
The Vega 2 probe is now in a solar orbit.
- Galileo - USA & Europe Jupiter Orbiter/Atmospheric Probe - 2,222 kg - (October 18, 1989)
Galileo was designed to study Jupiter's atmosphere, satellites and
surrounding magnetosphere for 2 years. In order to get there, it used
gravity assist techniques to pick up speed by flying past Venus on
February 10, 1990. It then flew past the Earth & Moon
on December 8, 1990 and then again on December 8, 1992. It has
made encounters asteroid 951 Gaspra on October 29, 1991, and asteroid
243 Ida on August 28, 1993.
- Magellan - USA Venus Orbiter - 3,545 kg - (May 4, 1989 - 1994)
Magellan was released into Earth's orbit from a space shuttle and then
injected into a transfer orbit to Venus by an upper stage.
Its primary mission was to map Venus using synthetic aperture radar.
The surface of Venus is obscured by thick clouds of carbon dioxide
that makes the surface invisible to optical instruments. Magellan arrived at
Venus on August 10, 1990. Its radar imaging system was able to produce images
at 300 meters/pixel resolution.
The spacecraft mapped 99 percent of the
planet's surface. In 1994, controllers directed the
orbiter into the atmosphere, where it burned up.
- Pioneer 0 - USA Lunar Orbiter - (August 17, 1958)
- Pioneer 1 - USA Lunar Orbiter - (October 11, 1958)
Failed to reach escape velocity.
- Pioneer 3 - USA Lunar Flyby - (December 6, 1958)
Failed to reach escape velocity.
- Luna 1 - USSR Lunar Flyby - 361 kg - (January 2, 1959)
Luna 1 was the first lunar flyby. It discovered the solar wind and
is now in a solar orbit.
- Pioneer 4 - USA Lunar Distant Flyby - 5.9 kg - (March 3, 1959)
Space probe is now in solar orbit.
- Luna 2 - USSR Lunar Hard Lander - 387 kg - (September 12, 1959)
Luna 2 was the first spacecraft to impact the surface of the moon on September 14, 1959.
- Luna 3 - USSR Lunar Far Side Flyby - 278.5 kg - (October 4, 1959)
Encountered the Moon on October 7, 1959 and returned the first image of
the Moon's hidden side. Space probe is now in a decayed earth-moon orbit.
- Ranger 3 - USA Lunar Hard Lander - 327 kg - (January 26, 1962)
Lunar probe missed the moon and is now in a solar orbit.
- Ranger 4 - USA Lunar Hard Lander - 328 kg - (April 23, 1962)
First US lunar impact of the Moon.
- Ranger 5 - USA Lunar Flyby - 340 kg - (October 18, 1962)
Ranger 5 was to be a lander but became a flyby because of a
spacecraft failure. It is now in a solar orbit.
- Luna 4 - USSR Lunar Probe - 1,422 kg - (April 2, 1963)
Lunar 4 was intended to be a lunar lander but missed the Moon. It
is now in an Earth Moon orbit.
- Ranger 6 - USA Lunar Hard Lander - 361.8 kg - (January 30, 1964)
Cameras failed; lunar probe impacted the surface of the Moon.
- Ranger 7 - USA Lunar Hard Lander - 362 kg - (July 28, 1964)
Arrived on July 31, 1964, sent pictures back at a close range, and
impacted the Moon.
- Ranger 8 - USA Lunar Hard Lander - 366 kg - (February 17, 1965)
Ranger 8 arrived at the moon on February 20, 1965. It sent back
high-resolution pictures until it impacted in Mare Tranquillitatis.
- Ranger 9 - USA Lunar HARD Lander - 366 kg - (March 21, 1965)
Lunar probe sent pictures of its impact on the moon.
- Luna 5 - USSR Lunar Soft Lander - 1,474 kg - (May 9, 1965)
The lunar soft-lander failed and impacted the moon.
- Luna 6 - USSR Lunar Soft Lander - 1,440 kg - (June 8, 1965)
Missed the moon and is now in a solar orbit.
- Zond 3 - USSR Lunar Flyby - 959 kg - (July 18, 1965)
Returned pictures of the lunar far side. It is now in a solar orbit.
- Luna 7 - USSR Lunar Soft Lander - 1,504 kg - (October 4, 1965)
Luna 7 failed and impacted the moon.
- Luna 8 - USSR Lunar Soft Lander - 1,550 kg - (December 3, 1965)
Luna 8 failed and impacted the moon.
- Luna 9 - USSR Lunar Soft Lander - 1,580 kg - (January 31, 1966)
Luna 9 landed on the lunar surface and retuned the first photographs from
the surface.
- Luna 10 - USSR Lunar Orbiter - 1,597 kg - (March 31, 1966)
Luna 10 is currently in a lunar orbit.
- Surveyor 1 - USA Lunar Soft Lander - 269 kg - (April 30, 1966 to 1967)
Surveyor 1 was the first American soft landing on the lunar surface.
- Lunar Orbiter 1 - USA Lunar Orbiter - 386 kg - (August 10, 1966)
Lunar Orbiter 1 orbited the moon, photographed the far side, and then
impacted on command.
- Luna 11 - USSR Lunar Orbiter - 1,638 kg - (August 24, 1966)
Luna 11 is currently in a lunar orbit.
- Surveyor 2 - USA Lunar Soft Lander - 292 kg - (September 20, 1966)
Surveyor 2 failed and impacted the moon.
- Luna 12 - USSR Lunar Orbiter - 1,620 - (October 22, 1966-1967)
Luna 12 is in a lunar orbit.
- Lunar Orbiter 2 - USA Lunar Orbiter - 390 kg - (November 6, 1966)
Orbited the moon, photographed the far side for
potential Apollo landing sites, then impacted on command.
- Luna 13 - USSR Lunar Soft Lander - 1,700 kg - (December 21, 1966)
Landed on the lunar surface.
- Lunar Orbiter 3 - USA Lunar Orbiter - 385 kg - (February 5, 1967)
Orbited the moon, photographed the far side for potential
Apollo landing sites, then impacted on command.
- Surveyor 3 - USA Lunar Soft Lander - 283 kg - (April 17, 1967)
Landed on the lunar surface.
- Lunar Orbiter 4 - USA Lunar Orbiter - 390 kg - (May 4, 1967)
Orbited the moon at a polar inclination and impacted on command.
- Surveyor 4 - USA Lunar Soft Lander - 283 kg - (July 14, 1967)
Lander failed and impacted the moon.
- Explorer 35 - USA Lunar Orbiter - 104 kg - (July 19, 1967 - 1972)
Orbiter acquired field and particle data.
- Lunar Orbiter 5 - USA Lunar Orbiter - 389 kg (August 1, 1967)
Orbited the moon at a polar inclination, took high resolution pictures
of many important sites, and impacted on command.
- Surveyor 5 - USA Lunar Soft Lander - 279 kg - (September 8, 1967)
Landed on the lunar surface.
- Surveyor 6 - USA Lunar Soft Lander - 280 kg - (November 7, 1967)
Landed on and took off from the lunar surface.
- Surveyor 7 - USA Lunar Soft Lander - 1,036 kg - (January 7, 1968)
Landed on the lunar surface.
- Luna 14 - USSR Lunar Orbiter - 1,700 kg - (April 7, 1968)
Luna 14 is in a lunar-solar orbit.
- Zond 5 - USSR Lunar Flyby - 5,375 kg - (September 14, 1968)
Lunar fly-around and earth return.
- Zond 6 - USSR Flyby - 5,375 - (November 10, 1968)
Lunar fly-around and earth return.
- Apollo 8 - USA Lunar Manned Orbiter - 28,883 kg - (December 21-27, 1968)
Crew: Frank Borman, James A. Lovell, Jr., William Anders.
The crew undertook the first manned lunar fly-around and Earth return.
The astronauts made 10 orbits of the moon on Christmas Eve.
- Apollo 10 - USA Lunar Manned Orbiter - 42,530 kg - (May 18-26, 1969)
Crew: Thomas Stafford, Eugene A. Cernan, John W. Young.
Manned lunar fly-around and Earth return. Stafford and Cernan tested the Lunar Module, separating it from the Command and Service Module and descended to within
50,000 feet of the lunar surface. The astronauts acquired a large number of excellent
70-mm photographs.
- Luna 15 - USSR Lunar Lander - 2,718 kg - (July 13, 1969)
Unsuccessful sample return attempt. Crashed during landing.
- Apollo 11 - USA Lunar Manned Lander - 43,811 kg - (July 16-24, 1969)
Crew: Neil A. Armstrong, Edwin E. Aldrin, Jr., Michael Collins.
Apollo 11 was the first manned lunar landing, which took place on
July 20, 1969. The landing site was Mare Tranquillitatis
at latitude 0°67' N and longitude 23°49' E. Armstrong and Aldrin collected 21.7 kilograms of soil and rock samples and deployed experiments.
- Zond 7 - USSR Lunar Flyby - 5,979 kg - (August 8, 1969)
Lunar fly-around and Earth return.
- Apollo 12 - USA Lunar Manned Lander - 43,848 kg - (November 14-24, 1969)
Crew: Charles Conrad Jr., Alan L. Bean, Richard F. Gordon, Jr.
Apollo 12 was a manned lunar landing which took place on November 19, 1969.
The landing site was Oceanus Procellarum at latitude 3°12' S
and longitude 23°23' W. This was the landing site for Surveyor 3.
Conrad and Bean retrieved portions of Surveyor 3, including the camera.
Samples amounting to 34.4 kilograms were returned from the moon. Astronauts also deployed the Apollo lunar surface experiment package (ALSEP), an automated research station which was also deployed by all subsequent lunar crews.
- Apollo 13 - USA Lunar Flyby - 43,924 kg - (April 11-17, 1970)
Crew: James A. Lovell, Jr., Fred W. Haise, Jr., John L. Swigert, Jr.
The Apollo 13 mission became one of survival for the astronauts on board.
During the translunar coast an explosion destroyed both power and
propulsion systems of the Command Service Module. The Lunar Module
was used as a lifeboat for the astronauts.
- Luna 16 - USSR Lunar Lander - 5,600 kg - (September 12, 1970)
Landed on September 20, 1970 at Mare Fecunditaits located at
latitude 0°41' S and longitude 56°18' E.
A return vehicle brought 100 grams
of lunar samples to Earth.
- Zond 8 - USSR Lunar Flyby - (October 20, 1970)
Lunar flyby and earth return.
- Luna 17 - USSR Lunar Lander and Rover - 5,600 kg - (November 10, 1970 - 1971)
Made lunar landing with an automated Lunokhod 1 rover.
- Apollo 14 - USA Lunar Manned Lander - 44,456 kg - (January 31 to February 8, 1971)
Crew: Alan B. Shepard, Jr., Edgar D. Mitchell, Stuart A. Roosa.
Shepard and Mitchell landed on the moon on February 5, 1971, in the Fra Mauro highlands, located at
3°40' S and longitude 17°28' E.
They collected 42.9 kilograms of lunar samples and used a hand-held cart to transport rocks and equipment.
- Apollo 15 - USA Lunar Manned Lander - 46,723 kg - (July 26 to August 7, 1971)
Crew: David R. Scott, James B. Irwin, Alfred M. Worden.
Scott and Irwin landed on the moon on July 30, 1971. The landing site was
Hadley-Apennine at latitude 26°6' N and longitude
3°39' E. They collected samples amounting to 76.8 kilograms.
A lunar Roving Vehicle was carried on this mission (and all subsequent ones) which allowed the astronauts to travel several kilometers from the landing site. The commander service module was the first to carry orbital sensors and to release a subsatellite into lunar orbit. Worden performed the first deep spacewalk to retrieve film from the service module.
- Luna 18 - USSR Lunar Lander - 5,600 kg - (September 2, 1971 - 1972)
Unsuccessful sample return attempt. Crashed during landing.
- Luna 19 - USSR Lunar Orbiter - 5,600 kg - (September 28, 1971 - 1972)
The orbiter is now in a lunar orbit.
- Luna 20 - USSR Lunar Lander - 5,600 kg - (February 14, 1972)
Landed on the moon and returned samples to the Earth.
Landed on February 21, 1972 at Apollonius highlands located at
latitude 3°32' N and longitude 56°33' E. 30 grams of lunar
samples were returned to the Earth.
- Apollo 16 - USA Manned Lunar Lander - 46,733 kg - (April 16-27, 1972)
Crew: John W. Young, Charles M. Duke, Jr., Thomas K. Mattingly II.
Young and Duke landed on April 21, 1972, at the Descartes crater located
at latitude 9°00' N and longitude 15°31' E. They deployed instruments, drove the lunar rover, and collected 94.7 kilograms of samples during a 71-hour surface stay.
- Apollo 17 - USA Manned Lunar Lander - 46,743 kg - (December 7-19, 1972)
Crew: Eugene A. Cernan, Harrison H. Schmitt, and Ronald B. Evans.
Cernan and Schmitt landed on the moon on December 12, 1972.
The landing site was Taurus-Littrow
at latitude 20°10' N and longitude 30°46' E. They returned 110.5 kg of rock and soil samples. The astronauts covered 30.5 kilometers in the lunar rover during a 75-hour stay.
- Luna 21 - USSR Lunar Lander and Rover - 4,850 kg - (January 8, 1973)
Made lunar landing with an automated Lunokhod 2 rover.
- Luna 22 - USSR Lunar Orbiter - 5,600 kg - (May 29, 1974 - 1975)
Successfully entered lunar orbit.
- Luna 23 - USSR Lunar Probe - 5,6000 kg - (October 28, 1974)
Crashed on the lunar surface.
- Luna 24 - USSR Lunar Lander - 4,800 kg - (August 9, 1976)
The landing site was Mare Crisium
at latitude 12°45' N and longitude 60°12' E.
Samples amounting to 170 grams were returned from the moon.
- Muses-A - Japan Lunar Orbiters - (January 24, 1990)
This consisted of two small orbiters but failed
to send back data from their orbit around the Moon.
This was the first non USA or USSR probe to reach Moon.
- Galileo - USA & Europe Jupiter Orbiter/Atmospheric Probe - 2,222 kg - (October 18, 1989)
Galileo made two approaches to the Earth and Moon. The first
was on December 8, 1990, and the second on December 8, 1992.
- Clementine - USA Lunar Orbiter - (January 25, 1994)
The official name for Clementine is "Deep Space Probe Science
Experiment" (DSPSE). It was a Department of Defense program used
to test new space technology. Clementine was a new design using
lightweight structure and propellant systems. It spent 70 days
(between February 6 and May 5, 1994) in lunar orbit. Its four cameras
mapped the surface of the Moon at 125-250 meters/pixel resolution.
Clementine also used a laser to gather altimeter data which will make
it possible to generate the first lunar topographic map.
- Lunar-A - Japan Lunar Probe - (Summer 1997)
Lunar-A will deliver three penetrators to the Moon's surface to study seismometry and thermal properties. The purpose is to learn more about the Moon's interior structure.
- Lunar Prospector - USA Lunar Orbiter - (October 1997)
The Lunar Prospector is designed for a low polar orbit investigation of the Moon, including the mapping of surface composition and possible ice deposits, the measuring of magnetic and gravity fields, and the study of lunar outgassing events. Its mission is scheduled to last one to three years.
- Lunar Exploration Orbiter - Japan Lunar Orbiter/Lander - (2002)
This mission will include a lunar orbiter, a lander and a sub-satellite. The orbiter will be in semi-polar orbit.
- Mars 1960A - USSR Mars Probe - (October 10, 1960)
Failed to reach Earth orbit.
- Mars 1960B - USSR Mars Probe - (October 14, 1960)
Failed to reach Earth orbit.
- Mars 1962A - USSR Mars Flyby - (October 24, 1962)
Spacecraft failed to leave Earth orbit after the final rocket stage exploded.
- Mars 1 - USSR Mars Flyby - 893 kg - (November 1, 1962)
Communications failed en route.
- Mars 1962B - USSR Mars lander - (November 4, 1962)
Failed to leave Earth orbit.
- Mariner 3 - USA Mars Flyby - 260 kg - (November 5, 1964)
Mars flyby attempt. Solar panels did not open,
preventing flyby. Mariner 3 is now in a solar orbit.
- Mariner 4 - USA Mars Flyby - 260 kg - (November 28, 1964 - December 20, 1967)
Mariner 4 arrived at Mars on July 14, 1965 and passed within 9,920 kilometers of the
planet's surface. It returned 22 close-up photos showing a cratered surface.
The thin atmosphere was confirmed to be composed of carbon dioxide in the
range of 5-10 mbar. A small intrinsic magnetic field was detected. Mariner
4 is now in a solar orbit.
- Zond 2 - USSR Mars Flyby - (November 30, 1964)
Contact was lost en route.
- Mariner 6 - USA Mars Flyby - 412 kg - (February 24, 1969)
Mariner 6 arrived at Mars on February 24, 1969, and passed within 3,437 kilometers
of the planet's equatorial region. Mariner 6 and 7 took measurements of the
surface and atmospheric temperature, surface molecular composition,
and pressure of the atmosphere. In addition, over 200 pictures were taken.
Mariner 6 is now in a solar orbit.
- Mariner 7 - USA Mars Flyby - 412 kg - (March 27, 1969)
Mariner 7 arrived at Mars on August 5, 1969, and passed within 3,551 kilometers
of the planet's south pole region. Mariner 6 and 7 took measurements of the
surface and atmospheric temperature, surface molecular composition,
and pressure of the atmosphere. In addition, over 200 pictures were taken.
Mariner 7 is now in a solar orbit.
- Mariner 8 - USA Mars Flyby - (May 8, 1971)
Failed to reach Earth orbit.
- Kosmos 419 - USSR Mars Probe - (May 10, 1971)
Failed to leave Earth orbit.
- Mars 2 - USSR Mars Orbiter/Soft Lander - 4,650 kg - (May 19, 1971)
The Mars 2 lander was released from the orbiter on November 27, 1971.
It crashed-landed because its breaking rockets failed - no data was
returned and the first human artifact was created on Mars. The orbiter
returned data until 1972.
- Mars 3 - USSR Mars Orbiter/Soft Lander - 4,643 kg - (May 28, 1971)
Mars 3 arrived at Mars on December 2, 1971. The lander was released and
became the first successful landing on Mars. It failed after relaying 20 seconds
of video data to the orbiter. The Mars 3 orbiter returned data until August, 1972.
It made measurements of surface temperature and atmospheric composition.
- Mariner 9 - USA Mars Orbiter - 974 kg - (May 30, 1971 - 1972)
Mariner 9 arrived at Mars on November 3, 1971 and was placed into orbit on
November 24. This was the first US spacecraft to enter an orbit around a
planet other than the Moon. At the time of its arrival a huge dust storm
was in progress on the planet. Many of the scientific experiments were
delayed until the storm had subsided. The first hi-resolution images of the
moons Phobos and Deimos
were taken. River and channel like
features were discovered. Mariner 9 is still in Martian orbit.
- Mars 4 - USSR Mars Orbiter - 4,650 kg - (July 21, 1973)
Mars 4 arrived at Mars on February, 1974, but failed to go into orbit due
to a malfunction of its breaking engine.
It flew past the planet with in 2,200 kilometers of
the surface. It returned some images and data.
- Mars 5 - USSR Mars Orbiter - 4,650 kg - (July 25, 1973)
Mars 5 entered into orbit around Mars on February 12, 1974. It acquired
imaging data for the Mars 6 and 7 missions.
- Mars 6 - USSR Mars Orbiter/Soft Lander - 4,650 kg - (August 5, 1973)
On March 12, 1974, Mars 6 entered into orbit and launched its lander.
The lander returned atmospheric descent data, but failed on its way down.
- Mars 7 - USSR Mars Orbiter/Soft Lander - 4,650 kg - (August 9, 1973)
On March 6, 1974, Mars 7 failed to go into orbit about Mars and the
lander missed the planet. Carrier and lander are now in a solar orbit.
- Viking 1 - USA Mars Orbiter/Lander - 3,399 kg - (August 20, 1975 - August 7, 1980)
Viking 1 and 2 were designed after the Mariner spacecraft. They consisted
of an orbiter and lander. The orbiter weighed 900 kg and the lander 600 kg.
Viking 1 went into orbit about Mars on June 19, 1976. The lander touched
down on July 20, 1976 on the western slopes of Chryse Planitia. Both
landers had experiments to search for Martian micro-organism. The results
of these experiments are still being debated. The landers provided detailed
color panoramic views of the Martian terrain. They also monitored the Martian
weather. The orbiters mapped the planet's surface, acquiring over 52,000
images. Viking 1 orbiter was deactivate on August 7, 1980 when it ran out
of altitude-control propellant. Viking 1 lander was accidentally shut down
on November 13, 1982, and communication was never regained.
- Viking 2 - USA Mars Orbiter/Lander - 3,399 kg - (September 9, 1975 - July 25, 1978)
Viking 1 and 2 were designed after the Mariner spacecraft. They consisted
of an orbiter and lander. The orbiter weighed 900 kg and the lander 600 kg.
Viking 2 went into orbit about Mars on July 24, 1976. The lander touched
down on August 7, 1976 at Utopia Planitia. Both
landers had experiments to search for Martian micro-organism. The results
of these experiments are still being debated. The landers provided detailed
color panoramic views of the Martian terrain. They also monitored the Martian
weather. The orbiters mapped the planet's surface, acquiring over 52,000
images. Viking 2 orbiter was deactivate on July 25, 1978 when it ran out
of altitude-control propellant. Viking 2 lander used Viking 1 orbiter as
a communications relay, and had to be shut down at the same time as the
orbiter on August 7, 1980.
- Phobos 1 - USSR Mars Orbiter/Lander - 5,000 kg - (July 7, 1988)
Phobos 1 was sent to investigate the Martian moon
Phobos. It was lost en route to Mars through a
command error on September 2, 1988.
- Phobos 2 - USSR Phobos Flyby/Lander - 5,000 kg - (July 12, 1988)
Phobos 2 arrived at Mars and was inserted into orbit on January 30, 1989.
The orbiter moved within 800 kilometers of Phobos and then failed. The lander
never made it to Phobos.
- Mars Observer - USA Mars Orbiter (September 25, 1992)
Communication was lost with Mars Observer on August 21, 1993, just before
it was to be inserted into orbit.
- Mars Global Surveyor - USA Mars Orbiter (November 7, 1996)
The Mars Global Surveyor is scheduled for launch in the late fall of 1996.
It was initiated due to the loss of the Mars Observer. The basic spacecraft
design is after the Mars Observer.
- Mars 96 - Russia Orbiter & Lander - (November 16, 1996)
Mars '96 consisted of an orbiter, two landers, and two soil penetrators that
were to reach the planet in September 1997. The rocket carring Mars 96 lifted
off successfully, but as it entered orbit the rocket's fourth stage ignited
prematurely and sent the probe into a wild tumble. It crashed into the ocean
somewhere between the Chilean coast and Easter Island. The spacecraft sank,
carrying with it 270 grams of plutonium-238.
- Mars Pathfinder - USA Lander & Surface Rover - (December 1996)
The Mars Pathfinder will deliver a stationary lander and a surface rover to the Red Planet in July 1997. The six-wheel rover, named Sojourner, will explore the area near the lander. The mission's primary objective is to demonstrate the feasibility of low-cost landings on the martian surface. This is the second mission in NASA's low-cost Discovery series.
- Planet B - Japan Mars Orbiter - (August 1998)
Japan's Institute of Space and Astronautical Science (ISAS) will launch this probe to study the Martian environment. This will be the first Japanese spacecraft to reach another planet.
- Mars Surveyor '98 Orbiter - USA Orbiter - (December 1998)
This orbiter is the companion spacecraft to the Mars Surveyor '98 Lander. The spacecraft will study the planet from polar orbit for at least 1.9 years using a variety of advanced instruments.
- Mars Surveyor '98 Lander - USA Lander - (January 1999)
The lander is the companion spacecraft to the Mars Surveyor '98 Orbiter. The spacecraft will study the environment at the martian south pole, seeking to understand planet's climate and soil. It will be equpped with meteological equipment to study the weather and a robotic arm to dig trenches in the soil.
- Mars Surveyor 2001 - USA Mars Probe - (2001)
This is part of NASA's 10-year program to launch a series of probes to the Red Planet during periods of favorable launch opportunities.
- Mars Surveyor 2003 - USA Mars Probe - (2003)
This is part of NASA's 10-year program to launch a series of probes to the Red Planet during periods of favorable launch opportunities.
- Mars Surveyor 2005 - USA Mars Sample Return - (2005)
This mission will return soil samples for analysis on Earth.
- Pioneer 10 - USA Jupiter Flyby - 259 kg - (March 3, 1972)
Pioneer 10 flew by Jupiter on December 1, 1973. It passed 132,250 kilometers
from Jupiter's cloud tops. It returned over 500 images of Jupiter and
its moons. Pioneer 10's greatest achievement was the data collected on Jupiter's
magnetic field, trapped charged particles, and solar wind interactions.
The orbit boundary of Pluto was crossed on June 13, 1983. It has now
left the solar system.
- Pioneer 11 - USA Jupiter/Saturn Flyby - 259 kg - (April 6, 1973 - November 1995)
Pioneer 11 flew by Jupiter on December 1, 1974 passing 42,900 kilometers from
Jupiter's cloud tops. It took better pictures than Pioneer 10, and
measured Jupiter's intense charged-particle and magnet field
environment. As it flew by Jupiter it was given a gravity assist which
swung it onto a course for Saturn. On September 1, 1979, Pioneer 11
flew past the outer edge of Saturn's A ring at a range of 3,500 kilometers.
It traveled underneath the ring system and passed 20,930 kilometers from
Saturn's cloud tops. It has now left the solar system.
- Voyager 1 - USA Jupiter/Saturn Flyby - 800 kg - (September 5, 1977)
Voyager 1 flew by Jupiter on March 5, 1979, and Saturn on November 12,
1980.
- Voyager 2 - USA Jupiter/Saturn/Uranus/Neptune Flyby - 800 kg - (August 20, 1977)
Voyager 2 flew by Jupiter on July 9, 1979, Saturn on August 26,
1981, Uranus on January 24, 1986, and Neptune on August 24, 1989.
- Ulysses - USA & Europe Sun Flyby - 370 kg - (October 6, 1990)
The Ulysses spacecraft is an international project to study the
poles of the Sun and interstellar space above and below the poles. It
used Jupiter for a gravity assist to swing out of the
ecliptic plane and
onward to the poles of the Sun. The Jupiter flyby was on February 8, 1992.
The first solar polar passage will be in June 1994 and
the spacecraft will pass the solar equator in February 1995.
- Galileo - USA & Europe Jupiter Orbiter/Atmospheric Probe - 2,222 kg - (October 18, 1989)
Galileo was designed to study Jupiter's atmosphere, satellites and
surrounding magnetosphere for 2 years. In order to get there, it used
gravity assist techniques to pick up speed by flying past Venus on
February 10, 1990. It then flew past the Earth & Moon
on December 8, 1990 and then again on December 8, 1992. It has
made encounters with asteroid 951 Gaspra on October 29, 1991, and asteroid
243 Ida on August 28, 1993.
- Hubble Space Telescope - USA & Europe Telescope - (April 25, 1990)
The Hubble Space Telescope has taken photographs of Jupiter and other planet. In July 1994, it photographed the collision of Compet Shoemaker-Levy 9 with Jupiter.
- Pioneer 11 - USA Jupiter/Saturn Flyby - 259 kg - (April 6, 1973 - November 1995)
Pioneer 11 flew by Jupiter on December 1, 1974 passing 42,900 kilometers from
Jupiter's cloud tops. It took better pictures than Pioneer 10, and
measured Jupiter's intense charged-particle and magnet field
environment. As it flew by Jupiter it was given a gravity assist which
swung it onto a course for Saturn. On September 1, 1979, Pioneer 11
flew past the outer edge of Saturn's A ring at a range of 3,500 kilometers.
It traveled underneath the ring system and passed 20,930 kilometers from
Saturn's cloud tops. It has now left the solar system.
- Voyager 1 - USA Jupiter/Saturn Flyby - 800 kg - (September 5, 1977)
Voyager 1 flew by Jupiter on March 5, 1979, and Saturn on November 12,
1980.
- Voyager 2 - USA Jupiter/Saturn/Uranus/Neptune Flyby - 800 kg - (August 20, 1977)
Voyager 2 flew by Jupiter on July 9, 1979, Saturn on August 26,
1981, Uranus on January 24, 1986, and Neptune on August 24, 1989.
- Cassini/Huygens - USA & Europe Saturn Orbiter/Titan Probe - (1997)
The aim of the joint ESA/NASA Cassini mission will be the exploration of
the whole Saturnian system - the planet itself, its atmosphere, rings and
magnetosphere, and some of its moons (Titan and the icy satellites).
Titan is especially interesting because its atmosphere is supposed to
have properties very close to those of the terrestrial atmosphere in
pre-biotic conditions. The Cassini mission will consist of the
NASA-provided Saturn Orbiter coupled with ESA's Huygens probe, which
will be dropped into Titan's atmosphere. During the three hours of its
descent to the surface of Titan, and after touchdown, Huygens will study
the characteristics of Titan's atmosphere and surface.
- Voyager 2 - USA Jupiter/Saturn/Uranus/Neptune Flyby - 800 kg - (August 20, 1977)
Voyager 2 flew by Jupiter on July 9, 1979, Saturn on August 26,
1981, Uranus on January 24, 1986, and Neptune on August 24, 1989.
- Voyager 2 - USA Jupiter/Saturn/Uranus/Neptune Flyby - 800 kg - (August 20, 1977)
Voyager 2 flew by Jupiter on July 9, 1979, Saturn on August 26,
1981, Uranus on January 24, 1986, and Neptune on August 24, 1989.
- Pluto Express - USA Pluto Flyby - (2001)
The Pluto Express mission is scheduled for launch around 2001 and
arrive at Pluto around 2013. The mission will consist of a pair of
small, fast, relatively cheap spacecraft weighing less than 100 kg each.
The spacecraft will pass within 15,000 kilometers of Pluto and Charon. They might include Russian Zond probes to study the tenuous Plutonian atmoshere.
433 Eros
- NEAR - USA Asteroid Probe - (February 17, 1996)
The main scientific purpose of NEAR (Near Earth Asteroid Rendezvous) is to
orbit the near Earth asteroid 433 Eros. The spacecraft is scheduled
to study
the asteroid for one year after entering orbit in January 1999.
NEAR imaged Comet Hyakutake in March 1996 and made a fast flyby of
asteroid 253 Mathilde on June 27, 1997. NEAR is the first of NASA's
Discovery missions and the first to return scientific data.
Gaspra
- Galileo - USA & Europe Jupiter Orbiter/Atmospheric Probe - 2,222 kg - (October 18, 1989)
Galileo made its closest approach to asteroid 951 Gaspra on October 29, 1991.
Ida
- Galileo - USA & Europe Jupiter Orbiter/Atmospheric Probe - 2,222 kg - (October 18, 1989)
Galileo made its closest approach to asteroid 243 Ida on August 28, 1993.
253 Mathilde
- NEAR - USA Asteroid Probe - (February 17, 1996)
NEAR flew within 1,200 kilometers of asteroid 253 Mathilde
on June 27, 1997 on its way to orbit asteroid 433 Eros.
3840 Mimistrobell
- Rosetta - Europe Comet Rendevous/Landing - (January 2003)
Rosetta will will conduct flybys of the asteroid 3840 Mimistrobell during its eight-year voyage to comet Wirtanen.
Nereus
- Muses-C - Japan Asteroid Sample Return - (January 2002)
This mission will make a landing on asteroid Nereus and return a soil sample to Earth.
2430 Shipka
- Rosetta - Europe Comet Rendevous/Landing - (January 2003)
Rosetta will will conduct flybys of the asteroid 2430 Shipka during its eight-year voyage to comet Wirtanen.
Giacobini-Zinner
- International Sun-Earth Explorer 3 - USA Interplanetary Monitor - 479 kg - (August 12, 1978)
The Internation Sun-Earth Explorer was renamed to International
Cometary Explorer (ICE). On September 11, 1985 it passed through
the plasma tail of comet Giacobini-Zinner.
Grigg-Skjellerup
- Giotto - Europe Comet Flyby - 512 kg - (July 2, 1985)
After the Halley fly-by, Giotto was put into hibernation, and re-awoken in
1990. Using a close Earth flyby, its trajectory was changed to allow a
close encounter with the Comet Grigg-Skjellerup on July 10th, 1992.
The flyby distance was actually less than that at Halley
(around 200 kilometers from the nucleus).
- Vega 1 - USSR Venus/Comet Halley Flyby - 4,000 kg - (December 15, 1984)
Vega 1 flew past Venus on June 11, 1985 on its way for a flyby with comet
Halley. It dropped off a Venera style lander and a balloon to investigate
the Venusian middle cloud layer. The lander's soil experiment failed. The
balloon floated in the atmosphere for about 48 hours at an altitude of 54
kilometers. Between Vega 1 and 2, downward gusts of 1 meter/second were
encountered and wind velocities of up to 240 kilometers/hour. The Comet
Halley flyby took place on March 6, 1986. The Vega 1 probe is now in a
solar orbit.
- Vega 2 - USSR Venus/Comet Halley Probe - 4,000 kg - (December 21, 1984)
Vega 2 flew past Venus on June 15, 1985 on its way for a flyby with comet
Halley. It dropped off a Venera style lander and a balloon to investigate
the Venusian middle cloud layer. The lander's soil experiment sampled
anorthosite-troctolite which is found in the lunar highlands but is rare
on Earth. The balloon floated in the atmosphere for about 48 hours at an
altitude of 54 kilometers. Between Vega 1 and 2, downward gusts of 1
meter/second were encountered and wind velocities of up to 240
kilometers/hour. The Comet Halley flyby took place on March 9, 1986.
The Vega 2 probe is now in a solar orbit.
- Sakigake - Japan Comet Flyby - 141 kg - (January 7, 1985)
Comet Halley flyby took place on March 1, 1986.
- Giotto - Europe Comet Flyby - 512 kg - (July 2, 1985)
Comet Halley flyby took place on March 13, 1986.
- Suisei - Japan Comet Flyby - 141 kg - (August 18, 1985 - February, 1991)
Comet Halley flyby took place on March 8, 1986.
Shoemaker Levy 9
- Hubble Space Telescope - USA/Europe Space Telescope - (April 25, 1990)
The space telescope photographed the collision of this comet with Jupiter in July 1994.
Hyakutake
- NEAR - USA Asteroid Probe - (February 17, 1996)
NEAR imaged Comet Hyakutake in March 1996 on its voyage to 433 Eros.
P/Wild
- Stardust - USA Comet Sample Return - (February 1999)
Stardust is scheduled to rendezvous with comet P/Wild 2 in January 2004, study the object, and collect material for analysis on Earth. The return capsule is scheduled to arrive back on Earth in January 2006.
Wirtanen
- Rosetta - Europe Comet Rendevous/Landing - (January 2003)
Rosetta will investigate comet Wirtanen. The spacecraft will orbit the comet and drop two probes to land on it. During the spacecraft's eight-year voyage to Wirtanen, it will conduct flybys of the asteroids 3840 Mimistrobell and 2530 Shipka.
Space History
Copyright © 1997 by Calvin J. Hamilton.
All rights reserved.