Venera 9

Venera 9
Spacecraft properties
Artist's conception of Venera 9 landed on Venus

Mission type	Venus orbiter / lander
Operator	Lavochkin
COSPAR ID	1975-050A
SATCAT №	7915
Mission duration	Orbiter: 200 days Lander: 53 minutes

Spacecraft	4V-1 No. 660
Manufacturer	Lavochkin
Launch mass	4,936 kg (10,882 lb)
Landing mass	1,560 kg (3,440 lb)
Payload mass	660 kg (1,455 lb)

Start of mission
Launch date	June 8, 1975, 02:38:00 (1975-06-08UTC02:38) UTC^[1]
Rocket	Proton-K/D^[1]
Launch site	Baikonur 81/24

End of mission
Last contact	Orbiter: December 25, 1975 (1975-12-26) Lander: October 22, 1975 (1975-10-23)

Orbital parameters
Reference system	Cytherocentric
Eccentricity	0.89002
Pericytherion	7,625 km (4,738 mi)
Apocytherion	118,072 km (73,367 mi)
Inclination	29.5 degrees
Period	48.3 hours

Venus orbiter
Spacecraft component	Orbiter
Orbital insertion	October 20, 1975
Venus lander
Spacecraft component	Lander
Landing date	October 22, 1975, 05:13 UTC
Landing site	31°01′N 291°38′E / 31.01°N 291.64°E / 31.01; 291.64
Seal of Venera 9

Venera 9 (Russian: Венера-9 meaning Venus 9), manufacturer's designation: 4V-1 No. 660,^[2] was a Soviet unmanned space mission to Venus. It consisted of an orbiter and a lander. It was launched on June 8, 1975, at 02:38:00 UTC and had a mass of 4,936 kilograms (10,882 lb).^[3] The orbiter was the first spacecraft to orbit Venus, while the lander was the first to return images from the surface of another planet.^[4]

Orbiter

The orbiter consisted of a cylinder with two solar panel wings and a high gain parabolic antenna attached to the curved surface. A bell-shaped unit holding propulsion systems was attached to the bottom of the cylinder, and mounted on top was a 2.4-metre (7.9 ft) sphere which held the lander.

The orbiter entered Venus orbit on October 20, 1975. Its mission was to act as a communications relay for the lander and to explore cloud layers and atmospheric parameters with several instruments and experiments. It performed 17 survey missions from October 26, 1975 to December 25, 1975.

Orbiter instruments and experiments

1.6-2.8 μm IR Spectrometer
8-28 μm IR Radiometer
352 nm UV Photometer
2 Photo-polarimeters (335-800 nm)
300-800 nm Spectrometer
Lyman-α (alpha) H/D Spectrometer
Bistatic Radar Mapping
CM, DM Radio Occultations
Triaxial Magnetometer
345-380 nm UV Camera
355-445 nm Camera
6 Electrostatic Analyzers
2 Modulation Ion Traps
Low-Energy Proton / Alpha detector
Low-Energy Electron detector
3 Semiconductor Counters
2 Gas-Discharge Counters
Cherenkov detector^[5]

Lander

On October 20, 1975, the lander spacecraft separated from the orbiter, and landing was made with the Sun near zenith at 05:13 UTC on October 22. Venera 9 landed within a 150 km (93 mi) radius of 31°01′N 291°38′E / 31.01°N 291.64°E / 31.01; 291.64, near Beta Regio, on a steep (20°) slope covered with boulders (suspected to be the slope of the tectonic rift valley, Aikhylu Chasma). The entry sphere weighed 1,560 kg (3,440 lb) and the surface payload was 660 kg (1,455 lb).^[6]

It was the first spacecraft to return an image from the surface of another planet.

A system of circulating fluid was used to distribute the heat load. This system, plus pre-cooling prior to entry, permitted operation of the lander for 53 minutes after landing, at which time radio contact with the orbiter was lost as the orbiter moved out of radio range.^[5] During descent, heat dissipation and deceleration were accomplished sequentially by protective hemispheric shells, three parachutes, a disc-shaped drag brake, and a compressible, metal, doughnut-shaped landing cushion. The landing was about 2,200 km (1,400 mi) from the Venera 10 landing site.

Venera 9 measured clouds that were 30–40 km (19–25 mi) thick with bases at 30–35 km (19–22 mi) altitude. It also measured atmospheric chemicals including hydrochloric acid, hydrofluoric acid, bromine and iodine. Other measurements included surface pressure of about 9,100 kilopascals (90 atm), temperature of 485 °C (905 °F), and surface light levels comparable to those at Earth mid-latitudes on a cloudy summer day. Venera 9 was the first probe to send back black and white television pictures from the Venusian surface showing no shadows, no apparent dust in the air, and a variety of 30 to 40 cm (12 to 16 in) rocks which were not eroded. Planned 360-degree panoramic pictures could not be taken because one of two camera lens covers failed to come off, limiting pictures to 180 degrees. This failure recurred with Venera 10.

Lander payload^[5]

Temperature and pressure sensors
Accelerometer
Visible / IR photometer - IOV-75
Backscatter and multi-angle nephelometers - MNV-75
P-11 mass spectrometer - MAV-75
Panoramic telephotometers (2, with lamps)
Anemometer - ISV-75
Gamma-ray spectrometer - GS-12V
Gamma-ray densitometer - RP-75

Image processing

Don P. Mitchell recently came across the original Venera imaging data while researching the Soviet Venus program, and reconstructed the images using modern image processing software.

References

1 2 McDowell, Jonathan. "Launch Log". Jonathan's Space Page. Retrieved April 11, 2013.
↑ RussianSpaceWeb.com
↑ "NSSDC Master Catalog - Venera 9". NASA National Space Science Data Center. Retrieved April 13, 2013.
↑ Solar System Exploration Multimedia Gallery: Venera 9, NASA website, accessed August 7, 2009.
1 2 3 Mitchell, Don P. "First Pictures of the Surface of Venus". Retrieved April 13, 2013.
↑ Interplanetary Spacecraft

Venus

Geography

General

Regions

Regio	Alpha Regio Asteria Regio Beta Regio Ovda Regio

Terrae	Aphrodite Terra Ishtar Terra Lada Terra

Mountains
and
volcanoes

Plains and
plateaus

Canyons and
valleys

Craters

Other

Moons

Neith (hypothetical moon)

Astronomy

General	Aspects Orbit Phases

Transits	1639 1769 1874 1882 2004 2012

Asteroids	Venus-crosser asteroid 2002 VE68

Exploration

Past	Sputnik programme Sputnik 7 Venera program Venera 1 Sputnik 19 Sputnik 20 Sputnik 21 Kosmos 21 Venera 1964A Kosmos 27 Venera 2 Venera 3 Kosmos 96 Venera 4 Kosmos 167 Venera 5 Venera 6 Venera 7 Venera 8 Kosmos 482 Venera 9 Venera 10 Venera 11 Venera 12 Venera 13 Venera 14 Venera 15 Venera 16 Mariner program Mariner 1 Mariner 2 Mariner 5 Mariner 10 Zond program Zond 1 Pioneer Venus Pioneer Venus Orbiter/Pioneer 12 Pioneer Venus Multiprobe/Pioneer 13 Vega program Vega 1 Vega 2 Magellan Galileo Cassini–Huygens IKAROS MESSENGER Shin'en Venus Express

Current	Akatsuki

Planned	BepiColombo Venera-D

Proposed	DAVINCI European Venus Explorer Mercury-P Venus In Situ Explorer Indian Venusian orbiter mission VERITAS

Proposed manned	Colonization Inspiration Mars (flyby) Terraforming

Other	Geological mapping of Venus Artificial objects on Venus

Book
Category
Commons
Portal

Venera programme

Tyazhely Sputnik Venera 1 Venera 2MV-1 No.1 Venera 2MV-1 No.2 Venera 2MV-2 No.1 Kosmos 21 Venera 3MV-1 No.2 Kosmos 27 Venera 2 Venera 3 Kosmos 96 Venera 4 Kosmos 167 Venera 5 Venera 6 Venera 7 Kosmos 359 Venera 8 Kosmos 482 Venera 9 Venera 10 Venera 11 Venera 12 Venera 13 Venera 14 Venera 15 Venera 16 Venera-D Zond 3MV-1 No.2 (Venera 1964A)

Spacecraft missions to Venus

Orbiters

Flybys

Descent probes

Landers

Balloon probes

Failed at launch

Planned flybys

Proposed

Orbiters & probes	DAVINCI HAVOC Venera-D Venus In Situ Explorer Indian Venusian orbiter mission VERITAS

Flybys	Inspiration Mars Mercury-P Laplace-P Uranus orbiter and probe

Cancelled

Program overviews

Italics indicates active current missions. ^† indicates failure en-route or before any data returned.

← 1974 · Orbital launches in 1975 · 1976 →

Soyuz 17 \| Kosmos 702 \| Kosmos 703 \| Landsat 2 \| Kosmos 704 \| Kosmos 705 \| Kosmos 706 \| Kosmos 707 \| Molniya-2-12 \| Starlette \| SMS-2 \| Kosmos 708 \| Kosmos 709 \| Intelsat IV F-6 \| Taiyo \| Kosmos 710 \| Kosmos 711 · Kosmos 712 · Kosmos 713 · Kosmos 714 · Kosmos 715 · Kosmos 716 · Kosmos 717 · Kosmos 718 \| OPS 2439 \| Kosmos 719 \| Kosmos 720 \| Kosmos 721 · Nauka-5KSA No.4 \| Kosmos 722 \| Interkosmos 13 \| Meteor-M No.31 \| Kosmos 723 \| Soyuz 7K-T No.39 \| Kosmos 724 \| Kosmos 725 \| GEOS-3 \| Kosmos 726 \| RM-20 \| Molniya-3 No.12 \| Kosmos 727 \| Kosmos 728 \| OPS 4883 \| Aryabhata \| Kosmos 729 \| Kosmos 730 \| Molniya-1-29 \| Explorer 53 \| Anik A3 \| Polluz · Castor \| OPS 9435 · OPS 9436 \| Kosmos 731 · Nauka-9KS No.2 \| Intelsat IV F-1 \| OPS 6226 \| Soyuz 18 \| Kosmos 732 · Kosmos 733 · Kosmos 734 · Kosmos 735 · Kosmos 736 · Kosmos 737 · Kosmos 738 · Kosmos 739 \| Kosmos 740 \| Kosmos 741 \| DS-U3-IK No.5 \| Kosmos 742 \| Molniya-1 No.24 · SRET-2 \| Venera 9 \| OPS 6381 · P-226-1 \| Nimbus 6 \| Kosmos 743 \| Venera 10 \| OPS 4966 \| Kosmos 744 \| OSO-8 \| Kosmos 745 \| Kosmos 746 \| Kosmos 747 \| Kosmos 748 \| Kosmos 749 \| Molniya-2-13 \| Meteor-2 No.1 \| Soyuz 19 \| Apollo · DM-2 \| Kosmos 750 \| Kosmos 751 \| Kosmos 752 \| Ji Shu Shiyan Weixing 1 \| Kosmos 753 \| Cos-B \| Kosmos 754 \| Kosmos 755 \| Viking 1 \| Kosmos 756 \| Symphonie 2 \| Kosmos 757 \| Molniya-1-31 \| Kosmos 758 \| Molniya-2-14 \| Kiku 1 \| Viking 2 \| Kosmos 759 \| Kosmos 760 \| Kosmos 761 · Kosmos 762 · Kosmos 763 · Kosmos 764 · Kosmos 765 · Kosmos 766 · Kosmos 767 · Kosmos 768 \| Meteor-M No.28 \| Kosmos 769 \| Kosmos 770 \| Kosmos 771 \| Intelsat IVA F-1 \| Aura \| Kosmos 772 \| Kosmos 773 \| Kosmos 774 \| Explorer 54 \| Kosmos 775 \| OPS 5499 \| Triad 2 \| E-8-5M No.412 \| GOES 1 \| Kosmos 776 \| Kosmos 777 \| Kosmos 778 \| Kosmos 779 \| Molniya-3 No.13 \| Soyuz 20 \| Explorer 55 \| Kosmos 780 \| Kosmos 781 \| Kosmos 782 \| Fanhui Shi Weixing 2 \| Kosmos 783 \| Kosmos 784 \| OPS 4428 · OPS 5547 \| DAD-A · DAD-B \| Interkosmos 14 \| Kosmos 785 \| Satcom 1 \| OPS 3165 \| Ji Shu Shiyan Weixing 2 \| Kosmos 786 \| Molniya-2-15 \| Unnamed \| Prognoz 4 \| Gran' No.11L \| Meteor No.38 \| Molniya-3 No.15

Payloads are separated by bullets ( · ), launches by pipes ( \| ). Manned flights are indicated in bold text. Uncatalogued launch failures are listed in italics. Payloads deployed from other spacecraft are denoted in (brackets).

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