Mass:5,972,190,000,000,000 billion kg
Equatorial Diameter:12,756 km
Polar Diameter:12,714 km
Equatorial Circumference:40,030 km
Known Moons:1
Notable Moons:The Moon
Orbit Distance:149,598,262 km (1 AU)
Orbit Period:365.26 Earth days
Surface Temperature:-88 to 58° C

Earth is the third planet from the Sun and largest of the terrestrial planets. Surprisingly, while it is only the fifth largest planet in terms of size and mass, it is the densest (5,513 kg/m3) of all the planets. Earth is the only planet in the solar system not named after a mythological being. Instead, its name is derived from the Old English word “ertha” and the Anglo-Saxon word “erda” which means ground or soil.

Earth was formed somewhere around 4.54 billion years ago and is currently the only known planet to support life – and lots of it.


Side by side comparison of the size of Earth vs the Moon


  • The Earth was once believed to be the centre of the universe. For 2000 years ancient astronomers believed that the Earth was static and had other celestial bodies travelling in circular orbits around it. They believed this because of the apparent movement on the Sun and planets in relation to their viewpoint. In 1543, Copernicus published his Sun-centered model of the Solar System which put the Sun at the centre of our solar system.
  • Earth is the only planet not named for a mythological god or goddess. The other seven planets in the solar system were named after Roman gods or goddesses. For the five visible to the naked eye, Mercury, Venus, Mars, Jupiter and Saturn they we named during ancient times. This Roman method was also used after the discovery of Uranus and Neptune. The word “Earth” comes from the Old English word “ertha” meaning ground or land.
  • Earth is the most dense planet in the solar system. The density of Earth differs in each part of the planet – the core, for example, is denser than the Earth’s crust – but the average density of the planet is around 5.52 grams per cubic centimetre.
  • The gravity between the Earth and the Moon causes the tides on Earth. This effect on the Moon means it is tidally locked to Earth – its rotation period is the same as its orbit time so it always presents the same face to Earth.
  • The rotation of the Earth is gradually slowing down. The deceleration of the Earth’s rotation is very slow, approximately 17 milliseconds per hundred years. Eventually this will lengthen our days but it will take around 140 million years before our day will have increased from 24 to 25 hours.
  • Earth’s atmosphere is composed of 78% nitrogen, 21% oxygen, and trace amounts of other gases including argon and carbon dixoide.
  • The large amount of oxygen on Earth comes from our plant life’s consumption of carbon dioxide during photosynthesis.
  • Earth has a very powerful magnetic field. This field protects the planet from the effects of solar winds and is believed to be a result of the nickel-iron core of the planet combined with its rapid rotation.
  • The Earth has an Ozone Layer which protects it from harmful solar radiation. This shell is a special type of oxygen that absorbs most of the Sun’s powerful UV rays.
  • 70% of the Earth’s surface is covered by water – the remainder consists of continents and islands which together have many lakes and other sources of water.
  • The first life on Earth developed in the oceans through a process called abiogenesis or biopoiesis. This is a natural process in which life grows from non-living matter like simple organic compounds.
  • Earth’s water was initially trapped within the planet. Over time the Earth’s water was brought to the surface by the planet’s volcanic activity.
  • Earth has relatively few visible impact craters compared with other solid bodies in our solar system. This is because Earth is geologically active and has processes like tectonics and erosion that reshape its surface.
  • The highest point found on Earth is Mount Everest which reaches a height of 8.8 km.
  • The lowest point on Earth is called Challenger Deep and at 10.9 km below sea level, it is further than the peak of Mount Everest.
  • Earth has one of the most circular orbits of all the eight planets. Its axis of rotation is tilted 23.4° away from the perpendicular of its orbital plane, which produces the seasons we experience.
  • A year on Earth lasts just over 365 days. It is actually 1/4 of a day over 365 days which is why we have a leap year every four years.


Throughout human history we have sought to understand our home planet. However, the learning curve has been steep, with many errors having been made along the way. For example, it was not until the time of the ancient Romans that the world was understood to be spherical rather than flat. A second example is the belief that the Sun revolved around the Earth. Only in the sixteenth-century, through the work of Copernicus, did we accept that, in fact, the Earth was merely a planet orbiting the Sun.

Perhaps most importantly, it is during the last two centuries that science has allowed us to see that the Earth is both an ordinary and unique place in the Solar System. On one hand, many of its characterisitcs are rather unexceptional. Take, for example, its size, interior, and geological processes&#8212being the fifth largest out of the eight planets, it is close to the median in terms of size; its interior structure is almost identical to the three other terrestrial planets; and the same geological processes that shape its surface can be found not only on other planets, but also on planetary moons. However, the Earth is special in one very important regard&#8212in all of the solar system, the Earth is the only world known to foster life.


The ability for Earth to possess life is dependent in many ways on its atmosphere. The composition of the atmosphere is roughly 78% nitrogen (N2), 21% oxygen (O2), 1% argon, with trace amounts of carbon dioxide (CO2) and other gases. Nitrogen and oxygen are essential to DNA and biological energy production, respectively, without which life could not be sustained. Additionally, the oxygen found in what is known as the ozone layer of the atmosphere protects the surface of the planet by absorbing harmful solar radiation.

Remarkably, the significant amount of oxygen present in the atmosphere is due to the life found on Earth. As a byproduct of making sugars, plants convert the carbon dioxide in the atmosphere into oxygen. Essentially, this means that without plants the amount of carbon dioxide in the atmosphere would be much greater and the oxygen levels much lower. On one hand, if carbon dioxide levels were much higher, it is likely the Earth would suffer from a runaway greenhouse effect like that on Venus. On the other hand, if the percentage of carbon dioxide were any lower there would not be a greenhouse effect at all, thus making temperatures far colder. Therefore, the carbon dioxide levels are just right to maintain hospitable temeperatures ranging from -88° C to 58° C.


When viewing Earth from space, there is one overwhelming feature&#8212the oceans of liquid water. In terms of surface area, these oceans cover approximately 70% of the Earth. What is even more amazing than this percentage is that a single drop of liquid water is yet to be found on any other planet in the Solar System. In this regard, the Earth is truly unique.

Like the Earth’s atmosphere, the presence of liquid water is vital for life. In fact, life is believed to have first developed 3.8 billion years ago in the oceans, only later evolving the ability to survive on land.

The existence of the oceans is attributed to two sources. The first of these is the Earth itself. It is conjectured that large amounts of water vapor were trapped wintin the Earth during its formation. Over time, the planet’s geological mechanisms, primarily its volcanic activity, released this water vapor into the atmosphere. Once in the atmosphere, this vapor condensed and fell to the planet’s surface as liquid water. The second source is theorized to have originated from the ancient comets that struck the Earth. Upon impact, they deposited substantial amounts of water ice on the planet.


Although most of the Earth’s surface lies beneath its oceans, the remaining “dry” surface is quite remarkable. When comparing the Earth to other solid bodies in the Solar System, its surface stands out due to its lacking impact craters. It is not that the Earth has been spared the numerous impacts by small bodies; rather, it is because the evidence of these impacts has been erased. Although there are many geological processes responsible for this, the two most important are weathering and erosion. In many ways these two mechanisms can be thought of as working in tandem.

Weathering is the breaking down of surface structures into smaller pieces by the atmosphere. Moreover, there are two types of weathering: chemical and physical. An example of chemical weathering is acid rain. An example of physical weathering is abrasion of river beds caused by rocks suspended in flowing water. The second mechanism, erosion, is simply the movement of weathered particles by water, ice, wind or gravity.

Thus, impact craters have been “smoothed out” through weathering and erosion by being broken apart and redistributed to other areas on the Earth’s surface.

Two other geological mechanisms have helped to shape the Earth’s surface. The first is volcanic activity. This process consists of the releasing of magma (molten rock) from the Earth’s interior through a rupture in the its crust. Some effects of volcanic activity can be the resurfacing of Earth’s crust or formation of islands (think of the Hawaiian Islands). The second mechanism is orogeny, or the formation of mountains through the compression of tectonic plates. An example of mountains created through this process is the Rocky Mountains.


Similar to the other terrestrial planets, Earth’s interior is believed to consist of three components: a core, a mantle, and a crust. At present, the core is thought to be comprised of two separate layers&#8212an inner core composed of solid nickel and iron, and an outer core composed of molten nickel and iron. The mantle is very dense and almost entirely solid silicate rock; its thickness is roughly 2,850 km. Finally, the crust is also composed of silicate rock and varies in thickness. While the continental crust ranges from 30 to 40 km in thickness, the oceanic crust is much thinner at only 6 to 11 km.

Yet another distinguishing feature of the Earth when compared to the other terrestrial planets is that its crust is divided into cool, rigid plates that rest upon the hotter mantle below. Furthermore, these plates are in constant motion. Along the boundaries of these plates two processes, known as subduction and spreading, can occur. During subduction two plates come into contact (sometimes violently, producing earthquakes) and one plate is forced under the other. Separation, on the other hand, is when two plates are moving away from each other.


At roughly 365 days, the Earth’s orbit around the Sun is familiar to us. The length of our year is due in large part to the Earth’s average orbital distance of 1.50 x 108 km. What many people are not familiar with is that at this orbital distance it takes sunlight, on average, about eight minutes and twenty seconds to reach the Earth.

With an orbital eccentricity of .0167, the Earth’s orbit is one of the most circular in all the Solar System. This means that the difference between Earth’s perihelion and aphelion is relatively small. As a result of this small difference, the intensity of the sunlight Earth receives remains almost constant year-round. However, the Earth’s position in its orbit is responsible, in part, for the varying seasons it experiences.

The Earth’s axial tilt is approximately 23.45°. That is, the axis the Earth rotates about is tilted slightly with respect to the plane in which the Earth orbits the Sun. The effect of this tilt, along with position of the Earth in its orbit, means that at certain times the amount of sunlight the northern hemisphere receives is greater than that of the southern hemisphere, and vice versa. This variation in intensity is what produces the warmer temperatures during the summer and colder temperatures during the winter.

A second commonly know characteristic is that the Earth takes approximately twenty-four hours to complete one rotation. This is fastest among the terrestrial planets, but easily slower than that of all the gas planets.

5 thoughts on “EARTH FACTS”

  1. My wife and i have been ecstatic that John could conclude his studies through the entire precious recommendations he discovered through your web site. It’s not at all simplistic just to find yourself giving for free tactics that many some others might have been making money from. So we acknowledge we now have you to thank because of that. The main explanations you have made, the easy website menu, the relationships you will make it easier to foster – it’s got many excellent, and it’s really leading our son and our family believe that this subject matter is entertaining, and that is wonderfully pressing. Thanks for all!

  2. I simply wanted to thank you so much all over again. I am not sure the things that I could possibly have created without the type of concepts contributed by you regarding this concern. It became a very intimidating matter in my opinion, nevertheless understanding a new specialized mode you handled it took me to leap with contentment. Extremely happier for the advice and even hope that you really know what a powerful job you were undertaking instructing many others thru your blog. I am certain you haven’t come across any of us.

  3. I must point out my affection for your kindness supporting women who actually need assistance with in this field. Your very own commitment to passing the message throughout turned out to be pretty helpful and has surely enabled guys and women just like me to reach their endeavors. Your new interesting advice implies a lot a person like me and far more to my peers. Thank you; from everyone of us.

  4. I as well as my friends were found to be looking at the best things from your web site while immediately got a terrible feeling I never expressed respect to the site owner for them. The guys ended up consequently excited to study them and have unquestionably been taking pleasure in those things. Thanks for actually being quite helpful and then for getting certain tremendous subjects millions of individuals are really eager to discover. My very own honest apologies for not saying thanks to sooner.

  5. I and my pals have been reviewing the excellent hints found on your website and then all of a sudden got a horrible suspicion I had not expressed respect to you for those tips. Those young men are already certainly warmed to see all of them and have in effect in truth been taking advantage of those things. I appreciate you for truly being really kind and then for picking this kind of nice tips most people are really desirous to discover. My very own honest apologies for not saying thanks to you sooner.

Leave a Reply

Your email address will not be published. Required fields are marked *