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Senin, 15 Maret 2010

Westlife

Westlife are an Irish pop group formed on 3 July 1998. The group's original lineup comprised Mark Feehily, Shane Filan, Kian Egan, Nicky Byrne and Brian McFadden, who left in 2004. Though none of Westlife's members play an instrument full-time, Egan plays guitar on stage, and Byrne has been seen to play drums. Filan and Feehily sing lead vocals. Egan also is seen playing the piano in the videoclip to the song Angel.

The group is the only act in UK history to have their first seven singles go straight to Number 1, and they have gone on to sell over 45 million records worldwide[1] which includes their studio, single, video, and compilation albums.[2][3] Despite the group's worldwide success, they've only had one U.S. hit on the Billboard Hot 100 charts: "Swear It Again," which made it to #20 in 2000.

Westlife were originally signed by Simon Cowell and are currently managed by Louis Walsh. In 2008, they were declared as Ireland's ninth-richest celebrities under 30 years old and 13th in general. They garnered 14 number one singles in the United Kingdom, the third-highest in UK history, tying with Cliff Richard and trailing behind only Elvis Presley and The Beatles. The group has also broken a few top records, including "Music artist with most consecutive number 1's in the UK" and the "Biggest selling arena act in the Wembley Arena". (See Westlife records)

Over years of their career, Westlife's music has evolved from teen pop to a pop sound, with an emphasis on ballads. Most of the group's hits have been composed by experienced songwriters, most notably Steve Mac and Wayne Hector. (See Songs written)

On 1 June 2008, Westlife marked their 10th anniversary with a concert in Croke Park, Dublin which saw more than 83,000 fans attending the special occasion. Music Week revealed on their website that Westlife is the official third top touring act within the years 2005–2008, while they were 7th top touring act of 2008.[4]

Contents

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[edit] History

[edit] Formation

Prior to becoming successful, Kian, Mark and Shane along with fellow Sligonians Derrick Lacey, Graham Keighron and Michael Garrett, were part of a six-member pop vocal group called IOYOU. Managed by choreographer Mary McDonagh along with two other informal managers, they released a single titled "Together Girl Forever". Louis Walsh, the manager of the 1990s boy-band Boyzone, was contacted by Shane's mother and came to know about the group. However, IOYOU did not meet Simon Cowell's approval for a record deal with BMG, and thus changes were needed. Three members of IOYOU were told they would not be part of the new group, and auditions were held in Dublin where Nicky Byrne and Brian McFadden were recruited. The new group, formed on 3 July 1998, was re-named Westside but as the name was already taken by another band, it was changed to Westlife. Also changing the spelling of Brian's name to Bryan. Boyzone singer Ronan Keating was brought in to co-manage the group with Walsh. Westlife then released an EP titled Swear It Again, though only in Asia.

[edit] Dreams Come True - World Of Our Own (1998-2002)

Westlife's first big break came in 1998 when they opened for the Boyzone and Backstreet Boys' concerts in Dublin. Later that year, they won the 'Best New Tour Act' award at the Smash Hits Poll Winners Party.[5] In March 1999, the group released their first single, "Swear It Again" which immediately topped the charts in Ireland and in UK for two weeks.[5] Their second single, "If I Let You Go", released in August 1999 along with the highly acclaimed "Flying Without Wings" (their first 'Record of the Year'), released in October the same year, also followed suit. "Flying Without Wings" was also included on the soundtrack of the Warner Brothers film, "Pokémon 2000". The first album, simply titled Westlife, was released in November 1999 and peaked at #2 in the UK. Ironically, the album was the biggest chart dropper in the music history of UK, falling from #3 to #37. In December 1999, the double a side fourth single was released,"I Have A Dream"/"Seasons In The Sun", knocked Cliff Richard's "The Millennium Prayer" off the top spot and earning them the 1999 UK Christmas number-one single.[6][7] The fifth and last single from the album, "Fool Again", also peaked at #1.[8] Then, the group went on a short UK and Asian tour in support of their debut album before releasing a second album.

Coast to Coast was released a year after and was another #1 UK album beating the Spice Girls' Forever album. It became the country's 4th biggest selling album of 2000 and is Westlife's biggest selling album to date.[9][10] The album was preceded by a duet with Mariah Carey on the Phil Collins' classic "Against All Odds (Take a Look at Me Now)" and the original song, "My Love" (the song that bagged their second 'Record of the Year' award). Both singles reached #1 on the UK charts.[11][12] With this, Westlife broke an unexpected record of having their first seven singles debut at the top of the UK charts, tying with The Beatles. However, in December 2000, they failed to secure their eighth chart-topper in a row with their UK and Ireland only single "What Makes A Man" when kid's favourite, Bob The Builder's "Can We Fix It", was crowned as the Christmas number-one single of that year.[13] Outside the UK/Ireland territories, they have released "I Lay My Love on You" and "When You're Looking Like That" and gained chart success. In 2001, the boys launched their first world tour, "Where Dreams Come True Tour", unofficially nicknamed "The No Stools Tour" due to the group's reputation of performing while perched on stools.[5][14]

Westlife released World Of Our Own, their third album, in November 2001. "Uptown Girl", "Queen of My Heart" and "World of Our Own" were released as singles, as of which all peaked at #1 in the UK.[15][16][17] "Bop Bop Baby" was also released as a single but it peaked at #5 in the UK Singles Chart. In 2002, Westlife went on their second world tour, the World Of Our Own Tour (In The Round)[5]

[edit] Unbreakable - Departure of Bryan (2002-2004)

The group released their eleventh UK #1 single, "Unbreakable", in 2002.[18] Amidst rumours of a split, Westlife released their first greatest hits album in November that same year entitled, Unbreakable - The Greatest Hits Vol. 1 zoomed all the way to #1 in the UK. The release was followed by the double a side single, "Tonight/Miss You Nights", which debuted at #3 in the UK.[19] At this era, Because Films Inspire... made a TV Documentary titled as "Wild Westlife" directed by Iain MacDonald and starred by the group itself. It reveals how was their musical life on a daily basis and when on tour.[20] In 2003, Westlife went on to their third world tour, The Greatest Hits Tour, shrugging off rumours of a split.[21]

In September 2003, Westlife released "Hey Whatever", which peaked at #4 on the UK Charts.[22] Their fourth studio album, Turnaround, was then released in November, earning the group another UK #1 album. "Mandy", a cover of the Barry Manilow hit, was released in November 2003. Their version won them their third Record of the Year award in under five years.[23] Their version of Mandy is also considered as the highest single leaper to the top (from #200 to #1) in the UK music history.[24] "Obvious" was released as the final single from the album, charting at #3.[25] On 9 March 2004, just three weeks prior to embarking on their fourth world tour, Bryan McFadden left the group to spend more time with his family and work on solo projects. On that day, a press conference was held where all the group's members were present and gave emotional individual speeches. Bryan's final public performance as part of Westlife was at Newcastle Upon Tyne's Powerhouse nightclub on 27 February 2004.[26][27] He subsequently began a solo career, deciding to revert the spelling of his first name back to its original 'Brian', he released his first solo single, "Real To Me" which entered the UK chart at #1 and soon after, he released his first solo album, "Irish Son" under Sony Music.[28] He went on to release more singles with moderate success.

[edit] Allow Us To Be Frank - 10 years (2004–2009)

Less than a month after McFadden's departure, the group kicked off their "Turnaround Tour". A live version from the said tour of "Flying Without Wings" was released as an official UK download, earning them the title of the very first UK Downloads #1. They then put out a Rat Pack-inspired album, Allow Us to Be Frank, peaking at #3. No singles were released in the UK from this album. "Ain't That A Kick In The Head", accompanied with a music video, was released as a physical single in other European countries. "Smile" and "Fly Me To The Moon", with music videos as well, were released as digital downloads only. Prior to the album release, Westlife scouted for "the perfect fan" to help promote their album from their one-season special show "She's The One", presented by Kate Thornton.[29] After X Factor-style auditions, they found Joanne Hindley, who recorded "The Way You Look Tonight" with the group.[5] To mark this special collaboration, a special programme was televised, showing auditions and live performances. Performers included Joanne, Westlife members' fathers and glamour model Katie Price, Il Divo and Kevin Spacey. Westlife continued to tour Europe as part of their "The Number Ones Tour", before taking a four-month break from work.[30] On 4 May 2005, Westlife lost their battle for European trademark from the German trademark "West".[31] In 2005, Westlife returned with their comeback single, "You Raise Me Up", which was taken from their Face To Face album. On 6 November 2005, both the album and the single were at #1 in the UK at the same time at the second week of the single. It was the first time that Westlife have held both top album and single position in the same week.[32][33] "You Raise Me Up" was awarded as their fourth Record Of The Year in UK for 2005. In December that year, the group released "When You Tell Me That You Love Me", a duet with Diana Ross, as the second single and it debuted at its peak position of #2.[34] Westlife then released a third single, "Amazing", which debuted at #4 and marked as the group's lowest-selling single yet.[35] After that, Westlife embarked on the "Face To Face Tour", travelling extensively to the UK, Ireland, Australia and Asia. This tour marked the first time that Westlife have travelled to mainland China for a concert.[36][37]

In late 2006, Westlife signed a brand new five-album deal with Sony BMG. Their eighth album, The Love Album, was a "love" concept album which consisted of popular love song covers. The album outsold other compilation albums by Oasis, The Beatles, and U2 in its first week of release and went straight to #1. The first single from The Love Album was a cover version of Bette Midler's classic, "The Rose", which became their 14th UK #1 single.[38] This made Westlife the third act (along with Cliff Richard) in the UK to have the most #1 singles, tailing behind Elvis Presley (21) and The Beatles (17). Westlife then kicked off their eighth world tour, "The Love Tour", in Perth, Australia.[39] The group then went on to other Australian cities before moving on to South Africa, the UK and Ireland. Westlife staged their last major concert of 2007 at Bitts Park in Carlisle, England.[40]

On 5 November 2007, Westlife released their ninth album, Back Home, which contained nine new original songs along with three cover songs. The album debuted at #1 on the UK Music Charts and it was also 2007's fifth biggest selling album in the UK.[41] The first single released from the album was a cover of Michael Bublé's "Home", which peaked at #3 in the UK.[42][43] "I'm Already There", not released as a single, managed to chart in the UK based on downloads alone following a performance on an The X Factor episode. On 15 December 2007, they had a two-hour show called The Westlife Show where they performed 10 of their songs, some voted by the fans through online and some from Back Home. It was hosted by Holly Willoughby.[44] This time, Westlife together with Tesco brought out "The Definitive Westlife Quiz" that asked about the whole history about the boys.[45] It was participated by thousands of fans worldwide. Months later, "Us Against The World" was announced and released as their second single in UK and Ireland. It peaked at #8 and is the group's lowest charting single to date. Before the release of the second single, they embarked on the Back Home Tour on 2008 February 25. This tour marked the first time that the group have traveled and performed to New Zealand, performing four sold-out shows in Auckland, Wellington, New Plymouth and Christchurch. Meanwhile, "Something Right" was released as the second single and "Us Against The World" became the third single in Europe and the Asia Pacific region. Both songs performed well on several music charts.

To mark their tenth year in music, Westlife staged a special 10 Years Of Westlife sold-out concert at the world's thirty-third and Europe's fourth biggest stadium,[46] Croke Park, on 1 June 2008.[47] With a capacity of 82 300, it was the boy's biggest show to date. Shayne Ward filled in as a support act for the concert,[48] which Kian described to be of a "pop extravaganza".[49] Shane confirmed that a corresponding live concert DVD will be released. The group announced that they will be on hiatus for a year after their Back Home Tour[50] and that there would not be an album release in 2008 as they would be spending more time on the production of their tenth album.[51] On 16 June 2008, HarperCollins UK will release Westlife's autobiography, 'Westlife - Our Story', as part of their 10th year celebration.[52][53] The book was said to be written by each group member for three months. It contains the life they have for the past ten years in the business. It features also some of the private pictures from the lads. As promised, the group's official website confirmed on 27 September 2008 the release of a DVD on 24 November 2008 entitled 10 Years Of Westlife - Live at Croke Park Stadium which went straight to #1 on UK, Ireland, South African, Hong Kong and New Zealand Music DVD charts.

As the group ended their successful Back Home tour, Louis Walsh announced in the show Xpose that 1 July 2008 is the official start of the longest hiatus of the group so far. He said that it will be a one-year break, from that day up to 1 July 2009. On 13 December 2008, while on a break, Westlife made an unexpected appearance on X Factor Final Performance Night where they performed "Flying Without Wings" with JLS. After the presentation, Shane and Nicky were interviewed on Xtra Factor with Ronan Keating and Stephen Gately of Boyzone. As JLS performed also "I'm Already There", Westlife's version of the song re-entered the UK Singles Chart at #63 while a new entry on Ireland Singles Chart at #47 due to extensive downloads only.

Before Christmas 2008, they wrote a letter to their website saying that 2009 was going to be the most exciting year yet for Westlife. With that, the fans of Westlife strongly speculated that one of the reasons is because of their possible collaborations with Leona Lewis and Britney Spears. While on a hiatus, Westlife was reported to have a closed deal for their upcoming 70-concert tour worth 10 million Euros by the end of 2009.

On the last week of January 2009, a DVD entitled The Karaoke Collection was released. It contains some of their music video hits. In 27 February 2009 issue of Herald Ireland, Louis revealed that Simon already picked three new songs which he reckons to be instant hits. Nicky spread the word last 8 March 2009 that Westlife will come back to music charts when they start recording in June 2009 when he received his VIP Style Awards as the Most Stylish Man on X-pose, TV3. On 18 March 2009, they won the Best Irish Pop Act on 2009 Meteor Awards for the ninth consecutive time. On 28 May 2009, they re-released Westlife - Our story autobiography, adding their Croke Park experience and first time in a paperback edition.

[edit] Where We Are (2009-present)

Walsh has revealed that after a year's break with their friends and family Westlife will return to hit the charts once more in June when they work on their tenth studio album. Walsh also said that while he met up with Simon Cowell they jointly managed to mastermind Westlife's comeback. At the time three songs had already been chosen which he believes will be big hits when they are released. Westlife will be revealing their 2010 tour dates with two new dates in Croke Park on their minds. They have currently set one date at Croke park to be 5 June.[54] In total the boys plans to play 70 concerts coming towards the end of the year including 8 dates at Dublin's 02 arena and other huge venues across Ireland, the United Kingdom and other countries. Shane told the Irish Mirror that they want to make the next album one of their best.[55]

The recording process of their tenth album started on 1 July 2009. Nicky said that there will be many first-time producers and writers for the upcoming album. He also wanted to have collaboration works with Chris Martin of Coldplay who happens to be a big Westlife fan.[56] Ryan Tedder of the group OneRepublic and a well-known writer/producer have also done songs for them called "Shadows" (co-written with AJ McLean of the Backstreet Boys) and "Beautiful", which may appear on their forthcoming album.[57][58] Another song has been found for them entitled "Leaving".[59] Shaznay Lewis were once reported to work with the pop group. Before the proper album release, "As Love Is My Witness" recorded by the boys and "Now Can't Let Go", a Westlife rumored demo song by Wayne Hector surfaced the internet.

The new album, Where We Are, was released on 30 November 2009 in the UK and peaked at #2 on both Irish and UK Albums Chart. The new single "What About Now", was released a few weeks earlier on 23 October 2009, with digital downloads being available the day before. The said single peaked at# 2 on both Irish and UK Singles Chart. Daughtry's original version of the song gained exposure on the audition rounds of The X Factor prior to Westlife's release. The group is set to collaborate for the second time with Mariah Carey and is going to be Mariah's next single, the song is called "Call Me Now" and will be exclusive to the UK but yet unconfirmed.[60] They will be part of the Haiti charity single, "Everybody Hurts", an R.E.M. cover to be organized by Simon Cowell. [61]

Filan revealed on the Paul O' Grady Show on 4 December 2009 that Westlife will be touring in mid-2010 and the dates are being announced soon. The tour is called "The Where We Are Tour". It was officially announced that they are the "2nd biggest selling artist" and "Biggest selling band of the decade" in UK with 10.14 million album sales.

[edit] Collaborations

Westlife is signed to the management of major record label Sony Music. Louis Walsh, Simon Cowell, Sonny Takhar, Tim Byrne comprise some of Westlife's management and production team.

Aside from Steve Mac and Wayne Hector, the group has the opportunities to work for their original songs with many well-known songwriters/producers including Savan Kotecha, Rami Yacoub, Per Magnusson, David Kreuger, Max Martin, Anders Johansson, Josef Larossi, Jorgen Elofsson, Andreas Carlsson, Arnthor Birgisson, Kristian Lundin, Jake Schulze, Diane Warren and most recently Ryan Tedder.

Long-time collaborator Wayne Hector has defined the essence of Westlife songwriting:

"If you want to write a song for Westlife, you’ve got to have a lyric that connects on a basic level. We’ve always thought the reason Westlife songs have been so successful is because it’s about situations that everybody goes through. We weren’t trying to be too clever about it, we were trying to be emotional."[62]

For their remixed songs, Rokstone, Orphanz, Ashanti Boyz, Wideboys, Soul Seekerz, and Jim Steinman have already worked for the group on some of their single releases.

The group had studio recorded and live collaborations in some of the most renowned music acts such as Mariah Carey ("Against All Odds (Take a Look at Me Now)"), Lulu ("Back at One"), Joanne Hindley ("The Way You Look Tonight"), Diana Ross ("When You Tell Me That You Love Me"), Donna Summer ("No More Tears (Enough Is Enough)"), Delta Goodrem ("All Out of Love"), and "If I Had Words" with The Vards. "I Have A Dream", with Indonesian childstar Sherina and "My Love" with Amr Diab. These songs were also recorded and included on the various albums. In 2002, Westlife re-recorded their hit song "Flying Without Wings" with Cristian Castro and Korean singer BoA as two separate duets.

Westlife have performed live duets with some of the biggest names in the music industry including Sinéad O'Connor ("Silent Night"), Donny Osmond ("Crazy Horses"), Mariah Carey ("Never Too Far/Hero Medley"), Secret Garden ("You Raise Me Up"), Lionel Richie ("Easy"), Ronan Keating ("The Dance"), Dolores O'Riordan of The Cranberries ("Little Drummer Boy"), Roy Orbison ("Pretty Woman"), Delta Goodrem ("All Out Of Love"), Raymond Quinn ("That's Life"), Leehom Wang ("You Raise Me Up"), Mary Black ("Walking In The Air"), Kevin Spacey ("Fly Me to the Moon"), Do ("Heaven"), JLS ("Flying Without Wings"), Boyzone ("No Matter What"), Various artists "All-Stars" ("That's What Friends Are For"; "Merry Christmas Everybody"; "I Wish It Could Be Christmas Everyday") and even their fathers ("That's Life").

Some of the music video directors who have worked with Westlife are: Cameron Casey, Wayne Isham, Nigel Dick, Stuart Gosling, Phil Griffin, Antti Jokinen, David Mould, Alex Hemming, Philip Andelman, Max Giwa and Dania Pasquini.[63]

Shayne Ward, No Way Out, K-otic, Natural, Six, Totally Spies, D-Side and Lauren Waterworth, Bellefire, The Conway Sisters, V, Twen2y4se7en, Zoo, Kwest, Pop, No Way Out, Sub Bass 5, Traphic, Mark Dakriet, 4th Ba5e, Reel, Peter Andre, Girls Aloud, Eton Road, Gareth Gates, Roxanne, Alsou, The MacDonald Brothers, Billiam, Cushh, The Unconventionals, Dyyce, Lady Nada, Code 5, Annabel Fay and Hope have supported the boys on different tours.

[edit] Philanthropy

While each member of the group has had their own individual humanitarian advocacies and activities, Westlife has been supporting various projects for a charity cause from the start. One of which was when the group re-recorded "I Have A Dream" with Indonesian star Sherina for a UNICEF fund raising. Aside from that, the boys released their cover version of "Uptown Girl" as a Comic Relief single, which was one of their biggest selling singles to date. Apart from it, they have also helped the S.I.R.F. organization in aid of the South Asian tsunami victims.

On 4 November 2005, they performed together with Christina Aguilera and Diana Ross at Coca-Cola Dome in Johannesburg, South Africa for The “Unite of the Stars” Gala Banquet charity concert that supports four charities: the Nelson Mandela Children’s Fund, Unite Against Hunger, St. Mary’s Hospital and the Topsy Foundation. They've also been actively helping both the Royal National Institute for the Deaf (RNID), ChildLine and Children in Need, Cancer Research UK organizations. Most recently, they performed "Us Against the World" live on Sports Relief, of Bluebell Wood and participating in Galway's Irish Water Safety Campaign by doing an advertisement. They are also an official supporter of One World Beat. They are involved also on the Helping For Haiti charity single that was released 8 February 2010 on UK. They are promoting Who's Calling awareness campaign of Childline.

Sabtu, 13 Maret 2010

Earth

Earth Astronomical symbol of Earth
BlueMarble-2001-2002.jpg
High-resolution global composites of Moderate Resolution Imaging Spectroradiometer
Designations
Pronunciation /ˈɝθ/ ( listen)[1]
Adjective earthly, tellurian, telluric, terran, terrestrial.
Epoch J2000.0[note 1]
Aphelion 152,097,701 km
1.0167103335 AU
Perihelion 147,098,074 km
0.9832898912 AU
Semi-major axis 149,597,887.5 km
1.0000001124 AU
Eccentricity 0.016710219
Orbital period 365.256366 days
1.0000175 yr
Average orbital speed 29.783 km/s
107,218 km/h
Inclination 1.57869°[2]
to Invariable plane
Longitude of ascending node 348.73936°
Argument of perihelion 114.20783°
Satellites 1 (the Moon)
Physical characteristics
Mean radius 6,371.0 km[3]
Equatorial radius 6,378.1 km[4]
Polar radius 6,356.8 km[5]
Flattening 0.0033528[4]
Circumference 40,075.02 km (equatorial)
40,007.86 km (meridional)
40,041.47 km (mean)
Surface area 510,072,000 km²[6][7][note 2]

148,940,000 km² land (29.2 %)

361,132,000 km² water (70.8 %)
Volume 1.0832073 × 1012 km3
Mass 5.9736 × 1024 kg[8]
Mean density 5.515 g/cm3
Equatorial surface gravity 9.780327 m/s²[9]
0.99732 g
Escape velocity 11.186 km/s
Sidereal rotation
period
0.99726968 d[10]
23h 56m 4.100s
Equatorial rotation velocity 1,674.4 km/h (465.1 m/s)
Axial tilt 23.439281°
Albedo 0.367[8]
Surface temp.
Kelvin
Celsius
min mean max
184 K 287 K 331 K
−89 °C 14 °C 57.7 °C
Atmosphere
Surface pressure 101.3 kPa (MSL)
Composition 78.08% nitrogen (N2)
20.95% oxygen (O2)
0.93% argon
0.038% carbon dioxide
About 1% water vapor (varies with climate)[8]

Earth (or the Earth) is the third planet from the Sun, and the fifth-largest of the eight planets in the Solar System. It is also the largest, most massive, and densest of the Solar System's four terrestrial planets. It is sometimes referred to as the World, the Blue Planet,[note 3] or Terra.[note 4]

Home to millions of species,[11] including humans, Earth is the only place in the Universe where life is known to exist. The planet formed 4.54 billion years ago,[12] and life appeared on its surface within a billion years. Since then, Earth's biosphere has significantly altered the atmosphere and other abiotic conditions on the planet, enabling the proliferation of aerobic organisms as well as the formation of the ozone layer which, together with Earth's magnetic field, blocks harmful radiation, permitting life on land.[13] The physical properties of the Earth, as well as its geological history and orbit, have allowed life to persist during this period. The world is expected to continue supporting life for another 1.5 billion years, after which the rising luminosity of the Sun will eliminate the biosphere.[14]

Earth's outer surface is divided into several rigid segments, or tectonic plates, that gradually migrate across the surface over periods of many millions of years. About 71% of the surface is covered with salt-water oceans, the remainder consisting of continents and islands; liquid water, necessary for all known life, is not known to exist on any other planet's surface.[note 5][note 6] Earth's interior remains active, with a thick layer of relatively solid mantle, a liquid outer core that generates a magnetic field, and a solid iron inner core.

Earth interacts with other objects in outer space, including the Sun and the Moon. At present, Earth orbits the Sun once for every roughly 366.26 times it rotates about its axis. This is a sidereal year, which is equal to 365.26 solar days.[note 7] The Earth's axis of rotation is tilted 23.4° away from the perpendicular to its orbital plane,[15] producing seasonal variations on the planet's surface with a period of one tropical year (365.24 solar days). Earth's only known natural satellite, the Moon, which began orbiting it about 4.53 billion years ago, provides ocean tides, stabilizes the axial tilt and gradually slows the planet's rotation. Between approximately 4.1 and 3.8 billion years ago, asteroid impacts during the Late Heavy Bombardment caused significant changes to the surface environment.

Both the mineral resources of the planet, as well as the products of the biosphere, contribute resources that are used to support a global human population. The inhabitants are grouped into about 200 independent sovereign states, which interact through diplomacy, travel, trade and military action. Human cultures have developed many views of the planet, including personification as a deity, a belief in a flat Earth or in Earth as the center of the universe, and a modern perspective of the world as an integrated environment that requires stewardship.





Chronology

Scientists have been able to reconstruct detailed information about the planet's past. The earliest dated Solar System material is dated to 4.5672 ± 0.0006 billion years ago,[16] and by 4.54 billion years ago (within an uncertainty of 1%)[12] the Earth and the other planets in the Solar System formed out of the solar nebula—a disk-shaped mass of dust and gas left over from the formation of the Sun. This assembly of the Earth through accretion was largely completed within 10–20 million years.[17] Initially molten, the outer layer of the planet Earth cooled to form a solid crust when water began accumulating in the atmosphere. The Moon formed shortly thereafter, 4.53 billion years ago.[18]

The current consensus model[19] for the formation of the Moon is the giant impact hypothesis, in which the Moon formed as a result of a Mars-sized object (sometimes called Theia) with about 10% of the Earth's mass[20] impacting the Earth in a glancing blow.[21] In this model, some of this object's mass would have merged with the Earth and a portion would have been ejected into space, but enough material would have been sent into orbit to form the Moon.

Outgassing and volcanic activity produced the primordial atmosphere. Condensing water vapor, augmented by ice and liquid water delivered by asteroids and the larger proto-planets, comets, and trans-Neptunian objects produced the oceans.[22] The newly-formed Sun was only 70% of its present luminosity, yet evidence shows that the early oceans remained liquid—a contradiction dubbed the faint young Sun paradox. A combination of greenhouse gases and higher levels of solar activity served to raise the Earth's surface temperature, preventing the oceans from freezing over.[23]

Two major models have been proposed for the rate of continental growth:[24] steady growth to the present-day[25] and rapid growth early in Earth history.[26] Current research shows that the second option is most likely, with rapid initial growth of continental crust[27] followed by a long-term steady continental area.[28][29][30] On time scales lasting hundreds of millions of years, the surface continually reshaped as continents formed and broke up. The continents migrated across the surface, occasionally combining to form a supercontinent. Roughly 750 million years ago (Ma), one of the earliest known supercontinents, Rodinia, began to break apart. The continents later recombined to form Pannotia, 600–540 Ma, then finally Pangaea, which broke apart 180 Ma.[31]

Evolution of life

At present, Earth provides the only example of an environment that has given rise to the evolution of life.[32] Highly energetic chemistry is believed to have produced a self-replicating molecule around 4 billion years ago, and half a billion years later the last common ancestor of all life existed.[33] The development of photosynthesis allowed the Sun's energy to be harvested directly by life forms; the resultant oxygen accumulated in the atmosphere and formed in a layer of ozone (a form of molecular oxygen [O3]) in the upper atmosphere. The incorporation of smaller cells within larger ones resulted in the development of complex cells called eukaryotes.[34] True multicellular organisms formed as cells within colonies became increasingly specialized. Aided by the absorption of harmful ultraviolet radiation by the ozone layer, life colonized the surface of Earth.[35]

Since the 1960s, it has been hypothesized that severe glacial action between 750 and 580 Ma, during the Neoproterozoic, covered much of the planet in a sheet of ice. This hypothesis has been termed "Snowball Earth", and is of particular interest because it preceded the Cambrian explosion, when multicellular life forms began to proliferate.[36]

Following the Cambrian explosion, about 535 Ma, there have been five mass extinctions.[37] The last extinction event was 65 Ma, when a meteorite collision probably triggered the extinction of the (non-avian) dinosaurs and other large reptiles, but spared small animals such as mammals, which then resembled shrews. Over the past 65 million years, mammalian life has diversified, and several million years ago, an African ape-like animal such as Orrorin tugenensis gained the ability to stand upright.[38] This enabled tool use and encouraged communication that provided the nutrition and stimulation needed for a larger brain. The development of agriculture, and then civilization, allowed humans to influence the Earth in a short time span as no other life form had,[39] affecting both the nature and quantity of other life forms.

The present pattern of ice ages began about 40 Ma and then intensified during the Pleistocene about 3 Ma. The polar regions have since undergone repeated cycles of glaciation and thaw, repeating every 40–100,000 years. The last ice age ended 10,000 years ago.[40]

Future

The life cycle of the Sun.

The future of the planet is closely tied to that of the Sun. As a result of the steady accumulation of helium at the Sun's core, the star's total luminosity will slowly increase. The luminosity of the Sun will grow by 10% over the next 1.1 Gyr (1.1 billion years) and by 40% over the next 3.5 Gyr.[41] Climate models indicate that the rise in radiation reaching the Earth is likely to have dire consequences, including the possible loss of the planet's oceans.[42]

The Earth's increasing surface temperature will accelerate the inorganic CO2 cycle, reducing its concentration to lethal levels for plants (10 ppm for C4 photosynthesis) in approximately 900 million years. The lack of vegetation will result in the loss of oxygen in the atmosphere, so animal life will become extinct within several million more years.[43] After another billion years all surface water will have disappeared[14] and the mean global temperature will reach 70 °C[43](158 °F). The Earth is expected to be effectively habitable for about another 500 million years,[44] although this may be extended up to 2.3 billion years if the nitrogen is removed from the atmosphere.[45] Even if the Sun were eternal and stable, the continued internal cooling of the Earth would result in a loss of much of its CO2 due to reduced volcanism,[46] and 35% of the water in the oceans would descend to the mantle due to reduced steam venting from mid-ocean ridges.[47]

The Sun, as part of its evolution, will become a red giant in about 5 Gyr. Models predict that the Sun will expand out to about 250 times its present radius, roughly 1 AU (150,000,000 km).[41][48] Earth's fate is less clear. As a red giant, the Sun will lose roughly 30% of its mass, so, without tidal effects, the Earth will move to an orbit 1.7 AU (250,000,000 km) from the Sun when the star reaches it maximum radius. Therefore, the planet is expected to escape envelopment by the expanded Sun's sparse outer atmosphere, though most, if not all, remaining life will be destroyed because of the Sun's increased luminosity.[41] However, a more recent simulation indicates that Earth's orbit will decay due to tidal effects and drag, causing it to enter the red giant Sun's atmosphere and be destroyed.[48]

Composition and structure

Earth is a terrestrial planet, meaning that it is a rocky body, rather than a gas giant like Jupiter. It is the largest of the four solar terrestrial planets in size and mass. Of these four planets, Earth also has the highest density, the highest surface gravity, the strongest magnetic field, and fastest rotation.[49] It also is the only terrestrial planet with active plate tectonics.[50]

Shape

Size comparison of inner planets (left to right): Mercury, Venus, Earth and Mars

The shape of the Earth is very close to that of an oblate spheroid, a sphere squished along the orientation from pole to pole such that there is a bulge around the equator.[51] This bulge results from the rotation of the Earth, and causes the diameter at the equator to be 43 km larger than the pole to pole diameter.[52] The average diameter of the reference spheroid is about 12,742 km, which is approximately 40,000 km/π, as the meter was originally defined as 1/10,000,000 of the distance from the equator to the North Pole through Paris, France.[53]

Local topography deviates from this idealized spheroid, though on a global scale, these deviations are very small: Earth has a tolerance of about one part in about 584, or 0.17%, from the reference spheroid, which is less than the 0.22% tolerance allowed in billiard balls.[54] The largest local deviations in the rocky surface of the Earth are Mount Everest (8,848 m above local sea level) and the Mariana Trench (10,911 m below local sea level). Because of the equatorial bulge, the feature farthest from the center of the Earth is Mount Chimborazo in Ecuador.[55][56]

Chemical Composition of the Crust[57]
Compound Formula Composition
Continental Oceanic
silica SiO2 60.2% 48.6%
alumina Al2O3 15.2% 16.5%
lime CaO 5.5% 12.3%
magnesia MgO 3.1% 6.8%
iron(II) oxide FeO 3.8% 6.2%
sodium oxide Na2O 3.0% 2.6%
potassium oxide K2O 2.8% 0.4%
iron(III) oxide Fe2O3 2.5% 2.3%
water H2O 1.4% 1.1%
carbon dioxide CO2 1.2% 1.4%
titanium dioxide TiO2 0.7% 1.4%
phosphorus pentoxide P2O5 0.2% 0.3%
Total 99.6% 99.9%
Size comparison of Earth and Uranus

Chemical composition

The mass of the Earth is approximately 5.98 × 1024 kg. It is composed mostly of iron (32.1%), oxygen (30.1%), silicon (15.1%), magnesium (13.9%), sulfur (2.9%), nickel (1.8%), calcium (1.5%), and aluminium (1.4%); with the remaining 1.2% consisting of trace amounts of other elements. Due to mass segregation, the core region is believed to be primarily composed of iron (88.8%), with smaller amounts of nickel (5.8%), sulfur (4.5%), and less than 1% trace elements.[58]

The geochemist F. W. Clarke calculated that a little more than 47% of the Earth's crust consists of oxygen. The more common rock constituents of the Earth's crust are nearly all oxides; chlorine, sulfur and fluorine are the only important exceptions to this and their total amount in any rock is usually much less than 1%. The principal oxides are silica, alumina, iron oxides, lime, magnesia, potash and soda. The silica functions principally as an acid, forming silicates, and all the commonest minerals of igneous rocks are of this nature. From a computation based on 1,672 analyses of all kinds of rocks, Clarke deduced that 99.22% were composed of 11 oxides (see the table at right). All the other constituents occur only in very small quantities.[note 8]

Internal structure

The interior of the Earth, like that of the other terrestrial planets, is divided into layers by their chemical or physical (rheological) properties. The outer layer of the Earth is a chemically distinct silicate solid crust, which is underlain by a highly viscous solid mantle. The crust is separated from the mantle by the Mohorovičić discontinuity, and the thickness of the crust varies: averaging 6 km under the oceans and 30–50 km on the continents. The crust and the cold, rigid, top of the upper mantle are collectively known as the lithosphere, and it is of the lithosphere that the tectonic plates are comprised. Beneath the lithosphere is the asthenosphere, a relatively low-viscosity layer on which the lithosphere rides. Important changes in crystal structure within the mantle occur at 410 and 660 kilometers below the surface, spanning a transition zone that separates the upper and lower mantle. Beneath the mantle, an extremely low viscosity liquid outer core lies above a solid inner core.[59] The inner core may rotate at a slightly higher angular velocity than the remainder of the planet, advancing by 0.1–0.5° per year.[60]

Geologic layers of the Earth[61]
Earth-crust-cutaway-english.svg

Earth cutaway from core to exosphere. Not to scale.
Depth[62]
km
Component Layer Density
g/cm3
0–60 Lithosphere[note 9]
0–35 ... Crust[note 10] 2.2–2.9
35–60 ... Upper mantle 3.4–4.4
35–2890 Mantle 3.4–5.6
100–700 ... Asthenosphere
2890–5100 Outer core 9.9–12.2
5100–6378 Inner core 12.8–13.1

Heat

Earth's internal heat comes from a combination of residual heat from planetary accretion (about 20%) and heat produced through radioactive decay (80%).[63] The major heat-producing isotopes in the Earth are potassium-40, uranium-238, uranium-235, and thorium-232.[64] At the center of the planet, the temperature may be up to 7,000 K and the pressure could reach 360 GPa.[65] Because much of the heat is provided by radioactive decay, scientists believe that early in Earth history, before isotopes with short half-lives had been depleted, Earth's heat production would have been much higher. This extra heat production, twice present-day at approximately 3 billion years ago,[63] would have increased temperature gradients within the Earth, increasing the rates of mantle convection and plate tectonics, and allowing the production of igneous rocks such as komatiites that are not formed today.[66]

Present-day major heat-producing isotopes[67]
Isotope Heat release
W/kg isotope
Half-life

years
Mean mantle concentration
kg isotope/kg mantle
Heat release
W/kg mantle
238U 9.46 × 10-5 4.47 × 109 30.8 × 10-9 2.91 × 10-12
235U 5.69 × 10-4 7.04 × 108 0.22 × 10-9 1.25 × 10-13
232Th 2.64 × 10-5 1.40 × 1010 124 × 10-9 3.27 × 10-12
40K 2.92 × 10-5 1.25 × 109 36.9 × 10-9 1.08 × 10-12

Total heat loss from the earth is 4.2 × 1013 Watts.[68] A portion of the core's thermal energy is transported toward the crust by Mantle plumes; a form of convection consisting of upwellings of higher-temperature rock. These plumes can produce hotspots and flood basalts.[69] More of the heat in the Earth is lost through plate tectonics, by mantle upwelling associated with mid-ocean ridges. The final major mode of heat loss is through conduction through the lithosphere, majority of which occurs in the oceans because the crust there is much thinner than that of the continents.[68]

Tectonic plates

Earth's main plates[70]
Tectonic plates (empty).svg
Plate name Area
106 km²
African Plate[note 11] 78.0
Antarctic Plate 60.9
Australian Plate 47.2
Eurasian Plate 67.8
North American Plate 75.9
South American Plate 43.6
Pacific Plate 103.3

The mechanically rigid outer layer of the Earth, the lithosphere, is broken into pieces called tectonic plates. These plates are rigid segments that move in relation to one another at one of three types of plate boundaries: Convergent boundaries, at which two plates come together, Divergent boundaries, at which two plates are pulled apart, and Transform boundaries, in which two plates slide past one another laterally. Earthquakes, volcanic activity, mountain-building, and oceanic trench formation can occur along these plate boundaries.[71] The tectonic plates ride on top of the asthenosphere, the solid but less-viscous part of the upper mantle that can flow and move along with the plates,[72] and their motion is strongly coupled with patterns convection inside the Earth's mantle.

As the tectonic plates migrate across the planet, the ocean floor is subducted under the leading edges of the plates at convergent boundaries. At the same time, the upwelling of mantle material at divergent boundaries creates mid-ocean ridges. The combination of these processes continually recycles the oceanic crust back into the mantle. Because of this recycling, most of the ocean floor is less than 100 million years in age. The oldest oceanic crust is located in the Western Pacific, and has an estimated age of about 200 million years.[73][74] By comparison, the oldest dated continental crust is 4030 million years old.[75]

Other notable plates include the Indian Plate, the Arabian Plate, the Caribbean Plate, the Nazca Plate off the west coast of South America and the Scotia Plate in the southern Atlantic Ocean. The Australian Plate fused with Indian Plate between 50 and 55 million years ago. The fastest-moving plates are the oceanic plates, with the Cocos Plate advancing at a rate of 75 mm/yr[76] and the Pacific Plate moving 52–69 mm/yr. At the other extreme, the slowest-moving plate is the Eurasian Plate, progressing at a typical rate of about 21 mm/yr.[77]

Surface

The Earth's terrain varies greatly from place to place. About 70.8%[78] of the surface is covered by water, with much of the continental shelf below sea level. The submerged surface has mountainous features, including a globe-spanning mid-ocean ridge system, as well as undersea volcanoes,[52] oceanic trenches, submarine canyons, oceanic plateaus and abyssal plains. The remaining 29.2% not covered by water consists of mountains, deserts, plains, plateaus, and other geomorphologies.

The planetary surface undergoes reshaping over geological time periods because of tectonics and erosion. The surface features built up or deformed through plate tectonics are subject to steady weathering from precipitation, thermal cycles, and chemical effects. Glaciation, coastal erosion, the build-up of coral reefs, and large meteorite impacts[79] also act to reshape the landscape.

The continental crust consists of lower density material such as the igneous rocks granite and andesite. Less common is basalt, a denser volcanic rock that is the primary constituent of the ocean floors.[80] Sedimentary rock is formed from the accumulation of sediment that becomes compacted together. Nearly 75% of the continental surfaces are covered by sedimentary rocks, although they form only about 5% of the crust.[81] The third form of rock material found on Earth is metamorphic rock, which is created from the transformation of pre-existing rock types through high pressures, high temperatures, or both. The most abundant silicate minerals on the Earth's surface include quartz, the feldspars, amphibole, mica, pyroxene and olivine.[82] Common carbonate minerals include calcite (found in limestone), aragonite and dolomite.[83]

The pedosphere is the outermost layer of the Earth that is composed of soil and subject to soil formation processes. It exists at the interface of the lithosphere, atmosphere, hydrosphere and biosphere. Currently the total arable land is 13.31% of the land surface, with only 4.71% supporting permanent crops.[7] Close to 40% of the Earth's land surface is presently used for cropland and pasture, or an estimated 1.3 × 107 km² of cropland and 3.4 × 107 km² of pastureland.[84]

The elevation of the land surface of the Earth varies from the low point of −418 m at the Dead Sea, to a 2005-estimated maximum altitude of 8,848 m at the top of Mount Everest. The mean height of land above sea level is 840 m.[85]

Hydrosphere

Elevation histogram of the surface of the Earth. Approximately 71% of the Earth's surface is covered with water.

The abundance of water on Earth's surface is a unique feature that distinguishes the "Blue Planet" from others in the Solar System. The Earth's hydrosphere consists chiefly of the oceans, but technically includes all water surfaces in the world, including inland seas, lakes, rivers, and underground waters down to a depth of 2,000 m. The deepest underwater location is Challenger Deep of the Mariana Trench in the Pacific Ocean with a depth of −10,911.4 m.[note 12][86] The average depth of the oceans is 3,800 m, more than four times the average height of the continents.[85]

The mass of the oceans is approximately 1.35 × 1018 metric tons, or about 1/4400 of the total mass of the Earth, and occupies a volume of 1.386 × 109 km3. If all the land on Earth were spread evenly, water would rise to an altitude of more than 2.7 km.[note 13] About 97.5% of the water is saline, while the remaining 2.5% is fresh water. Most fresh water, about 68.7%, is currently ice.[87]

The average salinity of the Earth's oceans is about 35 grams of salt per kilogram of sea water (35 ).[88] Most of this salt was released from volcanic activity or extracted from cool, igneous rocks.[89] The oceans are also a reservoir of dissolved atmospheric gases, which are essential for the survival of many aquatic life forms.[90] Sea water has an important influence on the world's climate, with the oceans acting as a large heat reservoir.[91] Shifts in the oceanic temperature distribution can cause significant weather shifts, such as the El Niño-Southern Oscillation.[92]

Atmosphere

The atmospheric pressure on the surface of the Earth averages 101.325 kPa, with a scale height of about 8.5 km.[8] It is 78% nitrogen and 21% oxygen, with trace amounts of water vapor, carbon dioxide and other gaseous molecules. The height of the troposphere varies with latitude, ranging between 8 km at the poles to 17 km at the equator, with some variation due to weather and seasonal factors.[93]

Earth's biosphere has significantly altered its atmosphere. Oxygenic photosynthesis evolved 2.7 billion years ago, forming the primarily nitrogen-oxygen atmosphere of today. This change enabled the proliferation of aerobic organisms as well as the formation of the ozone layer which, together with Earth's magnetic field, blocks ultraviolet solar radiation, permitting life on land. Other atmospheric functions important to life on Earth include transporting water vapor, providing useful gases, causing small meteors to burn up before they strike the surface, and moderating temperature.[94] This last phenomenon is known as the greenhouse effect: trace molecules within the atmosphere serve to capture thermal energy emitted from the ground, thereby raising the average temperature. Carbon dioxide, water vapor, methane and ozone are the primary greenhouse gases in the Earth's atmosphere. Without this heat-retention effect, the average surface temperature would be −18 °C and life would likely not exist.[78]

Weather and climate

The Earth's atmosphere has no definite boundary, slowly becoming thinner and fading into outer space. Three-quarters of the atmosphere's mass is contained within the first 11 km of the planet's surface. This lowest layer is called the troposphere. Energy from the Sun heats this layer, and the surface below, causing expansion of the air. This lower density air then rises, and is replaced by cooler, higher density air. The result is atmospheric circulation that drives the weather and climate through redistribution of heat energy.[95]

The primary atmospheric circulation bands consist of the trade winds in the equatorial region below 30° latitude and the westerlies in the mid-latitudes between 30° and 60°.[96] Ocean currents are also important factors in determining climate, particularly the thermohaline circulation that distributes heat energy from the equatorial oceans to the polar regions.[97]

Source regions of global air masses

Water vapor generated through surface evaporation is transported by circulatory patterns in the atmosphere. When atmospheric conditions permit an uplift of warm, humid air, this water condenses and settles to the surface as precipitation.[95] Most of the water is then transported to lower elevations by river systems and usually returned to the oceans or deposited into lakes. This water cycle is a vital mechanism for supporting life on land, and is a primary factor in the erosion of surface features over geological periods. Precipitation patterns vary widely, ranging from several meters of water per year to less than a millimeter. Atmospheric circulation, topological features and temperature differences determine the average precipitation that falls in each region.[98]

The Earth can be sub-divided into specific latitudinal belts of approximately homogeneous climate. Ranging from the equator to the polar regions, these are the tropical (or equatorial), subtropical, temperate and polar climates.[99] Climate can also be classified based on the temperature and precipitation, with the climate regions characterized by fairly uniform air masses. The commonly used Köppen climate classification system (as modified by Wladimir Köppen's student Rudolph Geiger) has five broad groups (humid tropics, arid, humid middle latitudes, continental and cold polar), which are further divided into more specific subtypes.[96]

Upper atmosphere

This view from orbit shows the full Moon partially obscured by the Earth's atmosphere. NASA image.

Above the troposphere, the atmosphere is usually divided into the stratosphere, mesosphere, and thermosphere.[94] Each layer has a different lapse rate, defining the rate of change in temperature with height. Beyond these, the exosphere thins out into the magnetosphere, where the Earth's magnetic fields interact with the solar wind.[100] An important part of the atmosphere for life on Earth is the ozone layer, a component of the stratosphere that partially shields the surface from ultraviolet light. The Kármán line, defined as 100 km above the Earth's surface, is a working definition for the boundary between atmosphere and space.[101]

Due to thermal energy, some of the molecules at the outer edge of the Earth's atmosphere have their velocity increased to the point where they can escape from the planet's gravity. This results in a slow but steady leakage of the atmosphere into space. Because unfixed hydrogen has a low molecular weight, it can achieve escape velocity more readily and it leaks into outer space at a greater rate than other gasses.[102] The leakage of hydrogen into space contributes to the pushing of the Earth from an initially reducing state to its current oxidizing one. Photosynthesis provided a source of free oxygen, but the loss of reducing agents such as hydrogen is believed to have been a necessary precondition for the widespread accumulation of oxygen in the atmosphere.[103] Hence the ability of hydrogen to escape from the Earth's atmosphere may have influenced the nature of life that developed on the planet.[104] In the current, oxygen-rich atmosphere most hydrogen is converted into water before it has an opportunity to escape. Instead, most of the hydrogen loss comes from the destruction of methane in the upper atmosphere.[105]

Magnetic field

The Earth's magnetic field, which approximates a dipole.

The Earth's magnetic field is shaped roughly as a magnetic dipole, with the poles currently located proximate to the planet's geographic poles. According to dynamo theory, the field is generated within the molten outer core region where heat creates convection motions of conducting materials, generating electric currents. These in turn produce the Earth's magnetic field. The convection movements in the core are chaotic, and periodically change alignment. This results in field reversals at irregular intervals averaging a few times every million years. The most recent reversal occurred approximately 700,000 years ago.[106][107]

The field forms the magnetosphere, which deflects particles in the solar wind. The sunward edge of the bow shock is located at about 13 times the radius of the Earth. The collision between the magnetic field and the solar wind forms the Van Allen radiation belts, a pair of concentric, torus-shaped regions of energetic charged particles. When the plasma enters the Earth's atmosphere at the magnetic poles, it forms the aurora.[108]

Orbit and rotation

Rotation

Earth's axial tilt (or obliquity) and its relation to the rotation axis and plane of orbit.

Earth's rotation period relative to the Sun—its mean solar day—is 86,400 seconds of mean solar time. Each second is slightly longer than an SI second because Earth's solar day is now slightly longer than it was during the 19th century due to tidal acceleration.[109]

Earth's rotation period relative to the fixed stars, called its stellar day by the International Earth Rotation and Reference Systems Service (IERS), is 86164.098903691 seconds of mean solar time (UT1), or 23h 56m 4.098903691s. [110][note 14] Earth's rotation period relative to the precessing or moving mean vernal equinox, misnamed its sidereal day, is 86164.09053083288 seconds of mean solar time (UT1) (23h 56m 4.09053083288s).[110] Thus the sidereal day is shorter than the stellar day by about 8.4 ms.[111] The length of the mean solar day in SI seconds is available from the IERS for the periods 1623–2005[112] and 1962–2005.[113]

Apart from meteors within the atmosphere and low-orbiting satellites, the main apparent motion of celestial bodies in the Earth's sky is to the west at a rate of 15°/h = 15'/min. This is equivalent to an apparent diameter of the Sun or Moon every two minutes; the apparent sizes of the Sun and the Moon are approximately the same.[114][115]

Orbit

Earth orbits the Sun at an average distance of about 150 million kilometers every 365.2564 mean solar days, or one sidereal year. From Earth, this gives an apparent movement of the Sun eastward with respect to the stars at a rate of about 1°/day, or a Sun or Moon diameter every 12 hours. Because of this motion, on average it takes 24 hours—a solar day—for Earth to complete a full rotation about its axis so that the Sun returns to the meridian. The orbital speed of the Earth averages about 30 km/s (108,000 km/h), which is fast enough to cover the planet's diameter (about 12,600 km) in seven minutes, and the distance to the Moon (384,000 km) in four hours.[8]

The Moon revolves with the Earth around a common barycenter every 27.32 days relative to the background stars. When combined with the Earth–Moon system's common revolution around the Sun, the period of the synodic month, from new moon to new moon, is 29.53 days. Viewed from the celestial north pole, the motion of Earth, the Moon and their axial rotations are all counter-clockwise. Viewed from a vantage point above the north poles of both the Sun and the Earth, the Earth appears to revolve in a counterclockwise direction about the Sun. The orbital and axial planes are not precisely aligned: Earth's axis is tilted some 23.5 degrees from the perpendicular to the Earth–Sun plane, and the Earth–Moon plane is tilted about 5 degrees against the Earth-Sun plane. Without this tilt, there would be an eclipse every two weeks, alternating between lunar eclipses and solar eclipses.[8][116]

The Hill sphere, or gravitational sphere of influence, of the Earth is about 1.5 Gm (or 1,500,000 kilometers) in radius.[117][note 15] This is maximum distance at which the Earth's gravitational influence is stronger than the more distant Sun and planets. Objects must orbit the Earth within this radius, or they can become unbound by the gravitational perturbation of the Sun.

Illustration of the Milky Way Galaxy, showing the location of the Sun.

Earth, along with the Solar System, is situated in the Milky Way galaxy, orbiting about 28,000 light years from the center of the galaxy. It is currently about 20 light years above the galaxy's equatorial plane in the Orion spiral arm.[118]

Axial tilt and seasons

Because of the axial tilt of the Earth, the amount of sunlight reaching any given point on the surface varies over the course of the year. This results in seasonal change in climate, with summer in the northern hemisphere occurring when the North Pole is pointing toward the Sun, and winter taking place when the pole is pointed away. During the summer, the day lasts longer and the Sun climbs higher in the sky. In winter, the climate becomes generally cooler and the days shorter. Above the Arctic Circle, an extreme case is reached where there is no daylight at all for part of the year—a polar night. In the southern hemisphere the situation is exactly reversed, with the South Pole oriented opposite the direction of the North Pole.

Earth and Moon from Mars, imaged by Mars Reconnaissance Orbiter. From space, the Earth can be seen to go through phases similar to the phases of the Moon.

By astronomical convention, the four seasons are determined by the solstices—the point in the orbit of maximum axial tilt toward or away from the Sun—and the equinoxes, when the direction of the tilt and the direction to the Sun are perpendicular. Winter solstice occurs on about December 21, summer solstice is near June 21, spring equinox is around March 20 and autumnal equinox is about September 23.[119]

The angle of the Earth's tilt is relatively stable over long periods of time. However, the tilt does undergo nutation; a slight, irregular motion with a main period of 18.6 years. The orientation (rather than the angle) of the Earth's axis also changes over time, precessing around in a complete circle over each 25,800 year cycle; this precession is the reason for the difference between a sidereal year and a tropical year. Both of these motions are caused by the varying attraction of the Sun and Moon on the Earth's equatorial bulge. From the perspective of the Earth, the poles also migrate a few meters across the surface. This polar motion has multiple, cyclical components, which collectively are termed quasiperiodic motion. In addition to an annual component to this motion, there is a 14-month cycle called the Chandler wobble. The rotational velocity of the Earth also varies in a phenomenon known as length of day variation.[120]

In modern times, Earth's perihelion occurs around January 3, and the aphelion around July 4. However, these dates change over time due to precession and other orbital factors, which follow cyclical patterns known as Milankovitch cycles. The changing Earth-Sun distance results in an increase of about 6.9%[121] in solar energy reaching the Earth at perihelion relative to aphelion. Since the southern hemisphere is tilted toward the Sun at about the same time that the Earth reaches the closest approach to the Sun, the southern hemisphere receives slightly more energy from the Sun than does the northern over the course of a year. However, this effect is much less significant than the total energy change due to the axial tilt, and most of the excess energy is absorbed by the higher proportion of water in the southern hemisphere.[122]

Moon

Characteristics
Diameter 3,474.8 km
2,159.2 mi
Mass 7.349 × 1022 kg
8.1 × 1019 (short) tons
Semi-major axis 384,400 km
238,700 mi
Orbital period 27 d 7 h 43.7 m

The Moon is a relatively large, terrestrial, planet-like satellite, with a diameter about one-quarter of the Earth's. It is the largest moon in the Solar System relative to the size of its planet, although Charon is larger relative to the dwarf planet Pluto. The natural satellites orbiting other planets are called "moons" after Earth's Moon.

The gravitational attraction between the Earth and Moon causes tides on Earth. The same effect on the Moon has led to its tidal locking: its rotation period is the same as the time it takes to orbit the Earth. As a result, it always presents the same face to the planet. As the Moon orbits Earth, different parts of its face are illuminated by the Sun, leading to the lunar phases; the dark part of the face is separated from the light part by the solar terminator.

Because of their tidal interaction, the Moon recedes from Earth at the rate of approximately 38 mm a year. Over millions of years, these tiny modifications—and the lengthening of Earth's day by about 23 µs a year—add up to significant changes.[123] During the Devonian period, for example, (approximately 410 million years ago) there were 400 days in a year, with each day lasting 21.8 hours.[124]

The Moon may have dramatically affected the development of life by moderating the planet's climate. Paleontological evidence and computer simulations show that Earth's axial tilt is stabilized by tidal interactions with the Moon.[125] Some theorists believe that without this stabilization against the torques applied by the Sun and planets to the Earth's equatorial bulge, the rotational axis might be chaotically unstable, exhibiting chaotic changes over millions of years, as appears to be the case for Mars.[126] If Earth's axis of rotation were to approach the plane of the ecliptic, extremely severe weather could result from the resulting extreme seasonal differences. One pole would be pointed directly toward the Sun during summer and directly away during winter. Planetary scientists who have studied the effect claim that this might kill all large animal and higher plant life.[127] However, this is a controversial subject, and further studies of Mars—which has a similar rotation period and axial tilt as Earth, but not its large Moon or liquid core—may settle the matter.

Viewed from Earth, the Moon is just far enough away to have very nearly the same apparent-sized disk as the Sun. The angular size (or solid angle) of these two bodies match because, although the Sun's diameter is about 400 times as large as the Moon's, it is also 400 times more distant.[115] This allows total and annular eclipses to occur on Earth.

A scale representation of the relative sizes of, and average distance between, Earth and Moon.

The most widely accepted theory of the Moon's origin, the giant impact theory, states that it formed from the collision of a Mars-size protoplanet called Theia with the early Earth. This hypothesis explains (among other things) the Moon's relative lack of iron and volatile elements, and the fact that its composition is nearly identical to that of the Earth's crust.[128]

Earth has at least two co-orbital asteroids, 3753 Cruithne and 2002 AA29.[129]

Habitability

A range of theoretical habitable zones with stars of different mass (our Solar System at center). Not to scale.

A planet that can sustain life is termed habitable, even if life did not originate there. The Earth provides the (currently understood) requisite conditions of liquid water, an environment where complex organic molecules can assemble and sufficient energy to sustain metabolism.[130] The distance of the Earth from the Sun, as well as its orbital eccentricity, rate of rotation, axial tilt, geological history, sustaining atmosphere and protective magnetic field all contribute to the conditions necessary to originate and sustain life on this planet.[131]

Biosphere

The planet's life forms are sometimes said to form a "biosphere". This biosphere is generally believed to have begun evolving about 3.5 billion years ago. Earth is the only place in the universe where life is known to exist. Some scientists believe that Earth-like biospheres might be rare.[132]

The biosphere is divided into a number of biomes, inhabited by broadly similar plants and animals. On land primarily latitude and height above the sea level separates biomes. Terrestrial biomes lying within the Arctic, Antarctic Circle or in high altitudes are relatively barren of plant and animal life, while the greatest latitudinal diversity of species is found at the Equator.[133]

Natural resources and land use

The Earth provides resources that are exploitable by humans for useful purposes. Some of these are non-renewable resources, such as mineral fuels, that are difficult to replenish on a short time scale.

Large deposits of fossil fuels are obtained from the Earth's crust, consisting of coal, petroleum, natural gas and methane clathrate. These deposits are used by humans both for energy production and as feedstock for chemical production. Mineral ore bodies have also been formed in Earth's crust through a process of Ore genesis, resulting from actions of erosion and plate tectonics.[134] These bodies form concentrated sources for many metals and other useful elements.

The Earth's biosphere produces many useful biological products for humans, including (but far from limited to) food, wood, pharmaceuticals, oxygen, and the recycling of many organic wastes. The land-based ecosystem depends upon topsoil and fresh water, and the oceanic ecosystem depends upon dissolved nutrients washed down from the land.[135] Humans also live on the land by using building materials to construct shelters. In 1993, human use of land is approximately:

Land use Percentage
Arable land 13.13%[7]
Permanent crops 4.71%[7]
Permanent pastures 26%
Forests and woodland 32%
Urban areas 1.5%
Other 30%

The estimated amount of irrigated land in 1993 was 2,481,250 km².[7]

Natural and environmental hazards

Large areas are subject to extreme weather such as tropical cyclones, hurricanes, or typhoons that dominate life in those areas. Many places are subject to earthquakes, landslides, tsunamis, volcanic eruptions, tornadoes, sinkholes, blizzards, floods, droughts, and other calamities and disasters.

Many localized areas are subject to human-made pollution of the air and water, acid rain and toxic substances, loss of vegetation (overgrazing, deforestation, desertification), loss of wildlife, species extinction, soil degradation, soil depletion, erosion, and introduction of invasive species.

A scientific consensus exists linking human activities to global warming due to industrial carbon dioxide emissions. This is predicted to produce changes such as the melting of glaciers and ice sheets, more extreme temperature ranges, significant changes in weather and a global rise in average sea levels.[136]

Human geography

North America South America Antarctica Africa Europe Asia Oceania OceansContinents vide couleurs.png
About this image

Cartography, the study and practice of map making, and vicariously geography, have historically been the disciplines devoted to depicting the Earth. Surveying, the determination of locations and distances, and to a lesser extent navigation, the determination of position and direction, have developed alongside cartography and geography, providing and suitably quantifying the requisite information.

Earth has approximately 6,803,000,000 human inhabitants as of December 12, 2009.[137] Projections indicate that the world's human population will reach seven billion in 2013 and 9.2 billion in 2050.[138] Most of the growth is expected to take place in developing nations. Human population density varies widely around the world, but a majority live in Asia. By 2020, 60% of the world's population is expected to be living in urban, rather than rural, areas.[139]

It is estimated that only one-eighth of the surface of the Earth is suitable for humans to live on—three-quarters is covered by oceans, and half of the land area is either desert (14%),[140] high mountains (27%),[141] or other less suitable terrain. The northernmost permanent settlement in the world is Alert, on Ellesmere Island in Nunavut, Canada.[142] (82°28′N) The southernmost is the Amundsen-Scott South Pole Station, in Antarctica, almost exactly at the South Pole. (90°S)

The Earth at night, a composite of DMSP/OLS ground illumination data on a simulated night-time image of the world. This image is not photographic and many features are brighter than they would appear to a direct observer.

Independent sovereign nations claim the planet's entire land surface, except for some parts of Antarctica and the odd unclaimed area of Bir Tawil between Egypt and Sudan. As of 2007 there are 201 sovereign states, including the 192 United Nations member states. In addition, there are 59 dependent territories, and a number of autonomous areas, territories under dispute and other entities.[7] Historically, Earth has never had a sovereign government with authority over the entire globe, although a number of nation-states have striven for world domination and failed.[143]

The United Nations is a worldwide intergovernmental organization that was created with the goal of intervening in the disputes between nations, thereby avoiding armed conflict.[144] It is not, however, a world government. The U.N. serves primarily as a forum for international diplomacy and international law. When the consensus of the membership permits, it provides a mechanism for armed intervention.[145]

The first human to orbit the Earth was Yuri Gagarin on April 12, 1961.[146] In total, about 400 people visited outer space and reached Earth orbit as of 2004, and, of these, twelve have walked on the Moon.[147][148][149] Normally the only humans in space are those on the International Space Station. The station's crew, currently six people, is usually replaced every six months.[150] Humans traveled the farthest from the planet in 1970, when Apollo 13 crew was 400,171 km away from Earth.[151][152]

Cultural viewpoint

The first photograph ever taken by astronauts of an "Earthrise", from Apollo 8

Unlike the rest of the planets in the Solar System, mankind didn't perceive the Earth as a planetof them until the sixteenth century.[153] The name "Earth" derives from the Anglo-Saxon word erda, which means ground or soil. It became eorthe later, and then erthe in Middle English.[154] The standard astronomical symbol of the Earth consists of a cross circumscribed by a circle.[155]

Earth has often been personified as a deity, in particular a goddess. In many cultures the mother goddess is also portrayed as a fertility deity. Creation myths in many religions recall a story involving the creation of the Earth by a supernatural deity or deities. A variety of religious groups, often associated with fundamentalist branches of Protestantism[156] or Islam,[157] assert that their interpretations of these creation myths in sacred texts are literal truth and should be considered alongside or replace conventional scientific accounts of the formation of the Earth and the origin and development of life.[158] Such assertions are opposed by the scientific community[159][160] and by other religious groups.[161][162][163] A prominent example is the creation-evolution controversy.

In the past there were varying levels of belief in a flat Earth,[164] but this was displaced by the concept of a spherical Earth due to observation and circumnavigation.[165] The human perspective regarding the Earth has changed following the advent of spaceflight, and the biosphere is now widely viewed from a globally integrated perspective.[166][167] This is reflected in a growing environmental movement that is concerned about humankind's effects on the planet.[168]