We’re going to the Red Planet! All the past, present, and future missions to Mars
SpaceX founder Elon Musk says travel to Mars is within reach, with a goal to have one million people living on Mars within 100 years. SpaceX isn’t alone in working toward reaching Mars, however. In fact, there are quite a number of missions, both manned and unmanned, that currently planned or under proposal from government space organizations and private space flight companies across the globe.
Exploration of Mars and eventual human travel to it are nothing new. While manned missions have remained financial and logistical near-impossibilities, unmanned missions began in 1960. There have been 56 Mars missions so far, of which 26 have been successful — a testament to the difficulty in reaching the Red Planet.
As it stands right now, there is one rover currently operational, with another enroute to arrive late this year (as of the writing of this story, Opportunity is stuck in a massive dust storm with low chances for survival). Orbiting Mars are six satellites, providing massive amounts of data on our dusty neighbor.
It doesn’t end there either. Many more missions are planned for the 2020, 2022, and 2024 launch windows, and there are proposals to put humans on Mars by the 2030s.
Operational and En Route Missions
This portion of the list includes the world’s most notable past missions, most of which are still in operation.
Mars Odyssey – 2001
Named after the iconic sci-fi novel and film 2001: A Space Odyssey, Mars Odyssey is a NASA orbital satellite that is currently about 2,400 miles above Mars’ surface. It launched on April 7, 2001, and holds the record as the longest-operating spacecraft orbiting Mars. Mars Odyssey’s mission was to find proof of past or present water on Mars, using spectrometers and a thermal imager to map out the distribution of water, which was successfully proven on July 21, 2008, by the Phoenix lander. Mars Odyssey also serves as a communications relay between Earth and Martian rovers, the Mars Science Lab, and the Phoenix lander. It is projected to remain in operation until 2025.
Mars Express – 2003
Mars Express was launched along with the Beagle 2 lander by European Space Agency on June 2, 2003. While Beagle 2 suffered a lander failure, Mars Express has remained in successful communication with Earth. Mars Express was launched with the intent of surveying Mars’ surface using high-resolution camera, radars, and spectrometers. Thus far, Mars Express has discovered water ice and carbon dioxide ice in Mars’ southern ice cap along with an area of liquid water underneath, and has provided better detail of the elemental and chemical makeup of the planet’s surface and atmosphere. The project has also resulting in a topographical map of Mars, high-res surface images, and flybys of Mars’ moon Phobos. This data has been incredibly valuable, and has earned the craft several end-date extensions. It’s currently scheduled to remain in operation until the end of 2026.
Mars Reconnaissance Orbiter – 2005
On August 12, 2005, NASA launched the Mars Reconnaissance Orbiter (MRO), which entered Mars’ orbit on March 10, 2006. The MRO has been observing the landscape, and has made numerous high-profile discoveries, including the recent observance of flowing salt water on the surface and subsurface of the planet. MRO was also used to find a landing zone for the Phoenix Lander, and also acts as a relay for communications between active rovers and Earth.
Curiosity Rover -2011
Like nearly all other unmanned craft listed here, NASA’s Curiosity was made to study the landscape and climate of Mars, comprising the rover portion of NASA’s Mars Science Laboratory (MSL). Specifically, Curiosity is looking for potential evidence of microbial life-sustaining conditions — either past or present — and assessing Mars’ habitability ahead of humans contact. It’s most notable discovery so far is the discovery of organic molecules on the planet’s surface in 2018. The rover is equipped with a vast array of instruments and cameras, and has been operational on Mars since 2012.
Mangalyaan (Mars Orbiter Mission) – 2013
The Indian Space Research Organization (ISRO) launched its first interplanetary mission on November 5, 2013. Dubbed “Mangalyaan,” the craft is an orbiter that has primarily been used as a proof of concept for ISRO’s interplanetary tech capabilities, testing various flight and communications systems, and providing telemetry data. Mangalyaan is also outfitted with a small suite of research instruments designed to capture atmospheric data. It is also the cheapest Mars mission to date, costing only $73 million USD.
MAVEN – 2013
The Mars Atmosphere and Volatile Evolution Mission (MAVEN) is currently searching for explanations for how and why Mars’ water and atmosphere have been slowly deteriorating and escaping. After entering orbit in 2014, it was quickly able to confirm that Mars’ atmosphere was escaping into space, and further observations found the planet’s magnetic field is more like a tail, disrupted by the solar wind. This could explain the Red Planet’s loss of atmosphere, but scientists are still investigating.
ExoMars Trace Gas Orbiter – 2016
Launched in 2016, ExoMars is the first in a series of joint Mars missions through a partnership between the European Space Agency and Roscosmos. The mission actually included two probes, the ExoMars Trace Gas Orbiter (TGO) and the Schiaparelli EDM Lander, however the lander crashed on the Mars surface after being delivered by the TGO. Researchers hope to gain a better understanding of methane and other trace gases present in the Martian atmosphere that could be evidence for possible biological activity.
InSight Lander – 2018
Launched in May 2018 and due to arrive at Mars in November, the InSight Lander, short for ‘Interior Exploration using Seismic Investigations, Geodesy and Heat Transport,’ aims to study the core of Mars and observe any possible seismic activity on the planet’s surface. It is hoped through the data collected will lead to better understanding of how rocky planets such as Earth, Mars, Venus, and Mercury are formed. The current plans are for a two month deployment phase upon landing, followed by nearly two years of observations as part of the initial mission.