1.0 Introduction
For centuries, humankind has speculated the existence of planets outside of our own solar system (NASA Website). These planets, known as exoplanets, orbit a star other than the Sun (Ridpath, 2012). In the 20th century, Edwin Hubble observed “islands” surrounded by stars far beyond our solar system (NASA Website). This observation proved that there is potential for habitable planets other than Earth (NASA Website). There are two dates mentioned for the discovery of the first exoplanet. Some say the first exoplanet discovered was in 1992 (Super Wasp Website). Others say it discovered in 1995 by Michel Mayor and Didier Queloz (NASA Website).T hey used the radial velocity method which determined the planet’s mass to be about half of Jupiter, and was observed orbiting close to the star 51 Pegasi (NASA Website). The most recent confirmed exoplanet count to date is 1692 (NASA Website). This report will provide information on exoplanets, how they are discovered and studied, and past and future research projects.
2.0 Searching for Exoplanets
2.1 Habitable zone
Scientists believe the most possible location for life to exist is on a small “Earth-like” rocky planet within a habitable zone (Super Wasp Website). A habitable zone (Fig. 1) is where the temperatures are suitable for liquid water to exist on a planet’s surface (NASA Website). A star’s habitability depends on how much star light it absorbs and reflects which determines its temperature (Astrobio Website).
2.2 Super-Earths
A super-Earth is a planet with masses between one and ten times that of Earth (Phys Org Website). They have a 41% incidence in habitable zones (Phys Org Website).
2.3 Missions/Organizations
Due to the difficulties in detecting an exoplanet becau...
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...zone, methane, and water (Space Telescope Science Institute Website). It will be able to reveal what drives star formation, and interactions between dark matter and galaxies (Space Telescope Science Institute Website). Also, the angular resolution will be 5-10 times better than the James Webb Space Telescope (Space Telescope Science Institute Website).
5.0 Conclusions
The hunt for exoplanets in the habitable zone will continue until they can answer the question of whether life can exist outside our galaxy. Exoplanets have been discovered with the help of launched missions such as Kepler, SETI and TESS. These planets are studied using advanced technology including spectroscopic analyses and transit spectroscopy. Proposed satellites will be launched in the future that will collect more in depth information that will bring us closer to the answer.
The research area of detecting exoplanets, planets outside our own solar system, is a huge area of interest and funding. The importance of being able to detect these planets is they can give us information and an insight into planetary formation, to help the search for ”Earth- like” planets in the habitable zone, and of course the ever-present question of extraterrestrial life. So on order to attempt to gather information about these things we must be have solid detection techniques in place for exoplanets. A few of the important methods shall be discussed here, including the radial velocity method, transit method, direct imaging and gravitational microlensing among others .
Have you ever looked up into the night skies and wondered what might be out there? One question I always wonder is where in the universe might there be a livable planet? Well the answer might be closer than you think, well actually 588 million kilometers away from earth. Jupiter of course is what I’m talking about. Fell first let’s ask the why we might move. Let’s face it earth is not going to be able to be habitable forever in fact ate the rate humans are polluting the atmosphere earth won’t be around that much longer. So might need a new place to live. So could the answer be Jupiter? Before that we need to know a little about the new planet and if it’s able to sustain life. Let’s start with the Jupiter’s history. Jupiter is the largest planet in the solar system. Jupiter was named after the king of the gods and Roman mythology. The ancient Greeks named the planet after Zeus, the king of the Greek pantheon. In 1610, a man that goes by the name “Galileo Galilei” was looking through his homemade telescope when he came across Jupiter. He notice four objects circling Jupiter and described them as "four fixed stars, totally invisible by their smallness" it was there were he discovered four large moons Io, Europa, Ganymede and Callisto, which underwent several name change but are now known as the Galilean moons. This was the first time celestial bodies were seen circling an object other then Earth. Jupiter spins faster than any other planet, taking 10 hours to complete a turn on its axis, compared to that of 24 hours for Earth. This rapid spin makes Jupiter bulge at the equator and flatten at the poles, making the planet about 7 percent wider at the equator than at the poles. This is Jupiter and this is Jupiter next to the earth. Jup...
Uranus is about 4 times the diameter of earth at 46,700km. Its mass is 15 times that of earth at 8.68*10 kg. The axial tilt of this planet is one of the most unusual things about it. It is tilted 98 degrees which classifies it as being in retrograde rotation. Uranus is also unique because it has the most inclined magnetic field. The surface magnetic field is 74 percent that of the earth. The surface gravity on Uranus is 8.87 m/s².
Research News Planetary Scientists are Seeing the Unseeable Richard A. Kerr Science, New Series, Vol. 235, No. 2 -. 4784. The. Jan. 2, 1987, pp. 113-117. 29-31. The 'Standard' of the 'Standard'. Stable URL:
Although Pluto was discovered in 1930, limited information on the distant planet delayed a realistic understanding of its characteristics. Today Pluto remains the only planet that has not been visited by a spacecraft, yet an increasing amount of information is unfolding about this peculiar planet. The uniqueness of Pluto's orbit, rotational relationship with its satellite, spin axis, and light variations all give the planet a certain appeal.
The history of the planet's discovery is the first we have of its kind; Uranus was the first planet to be discovered with a telescope. The circumstances surrounding the discovery of the object are befitting of the odd planet. The earliest recorded sighting of Uranus was in 1690 by John Flamsteed, but the object was catalogued as another star. On March 13, 1781 Uranus was sighted again by amateur astronomer William Herschel and thought to be a comet or nebulous star. In 1784, Jean-Dominique Cassini, director of the Paris Observatory and prominent professional astronomer, made the following comment:
The existence of life – Aliens, beyond our planet has been a controversial topic for several centuries, and is a debatable issue even today in the 21st century. What is our topic you may ask? Aliens, Do, Exist. According to theoretical physicist, Stephen Hawking, it would be improbable for life not to exist somewhere other than Earth. This is a bold claim, but there is evidence to support this statement. The evidence we seek is in the many Alien occurrences we have experienced throughout human history.
It is without a doubt that the most fascinating thing about space is the possibility of life elsewhere beside Earth. It is estimated that the Milky Way Galaxy itself contains about 300 billion stars. Each star contains planets and some planets might even have moons. With these findings, the question is no longer whether life exists elsewhere. The probability that Earth is the only place where life exists in the universe is far too slim. NASA has identified many planets that have similar conditions to Earth but most of these planets are hundreds of light years away so traveling there to find out if there’s any living organism is not easy. Luckily, scientific evidences have pointed out that one of the moons of Jupiter, Europa, could be one of the places where life can exist. If the theories proposed by astronomers about Europa are true, life on Europa might not even be entirely different than life near the bottom of Earth’s oceans.
Right alongside the fifth and largest planet in our solar system, Jupiter, orbits a moon only about the same size as Earth’s moon. On this moon, is an icy surface that scientists are trying to uncover. Due to the presence of what they believe to be water, there is the possibility of life on this moon named Europa.
Jupiter, the largest planet in our solar system, has yet to be discovered as in depth as Juno will. NASA New Frontiers recently established the Juno Mission to observe Jupiter (Ionescu 1). The spacecraft is currently on route to Jupiter and it is set to arrive in 2016. Juno will orbit Jupiter thirty-three times total before shutting down (Ionescu 1). Juno will observe Jupiter with deeper observation than can be seen by a telescope. The Juno Spacecraft is a project made to discover Jupiter’s high winds, a possible water source, and the planetary structure.
Overall we can get a pretty good insight on how or Solar System was formed, yes there are still certain aspects of it that are hard to make sense of, as well as debates over which theory is correct, such as Core Accretion vs. Disk Instability, but overall I feel it is pretty amazing what we have learned about the nature of system and look forward to future discoveries.
Recently, two probes were sent back and they made it to Mars. They landed on the South Polar Caps of Mars. That is where NASA plans to find water. After landing on Mars, the probes extracted water like crystals from the surface of Mars. They found that there was a small amount of water in the crystals, which means that there is a strong chance that life, was on Mars at one time.
Our solar system has eight planets, their moons and satellites, and they are all orbiting the Sun. The eight planets are Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus, and Neptune. Pluto used to be the ninth planet but IAU changed the definition of planet and Pluto did not meet the standards so it is now a Dwarf planet.
It may be possible for us to obtain material from another planet or moon or star from elsewhere in the Solar System. Spacecraft may be able to visit these bodies and, for example, use a robot to collect material for examination. This may be examined on site, or brought to Earth to be investigated in laboratory conditions. They could be tested for things such as evidence of fossilised organisms. Another, possibly slightly far-fetched hope is that we may find simple organisms like bacteria actually living on the desired planet. These ideas spanned from the discovery of rock on our planet that originated from Mars; knocked from the planet when a comet collided with it. In 1996 a group of scientists created conflict by ...
This telescope is the result of an international collaboration of 17 countries lead by NASA, European Space Agency and Canadian Space Agency. It will help us determine the geometry of the universe and enable us to establish whether the universe will expand forever.