Earth
Earth
Etymology
Chronology
Formation
Geological history
Origin of life and evolution
| ||||||||||||||||||||||||||||||||||||||||||||
Future
Physical characteristics
Size and shape
Internal structure
Illustration of Earth's cutaway, not to scale | ||
---|---|---|
Depth[95] | Component | Density |
0–60 | Lithosphere[n 7] | — |
0–35 | Crust[n 8] | 2.2–2.9 |
35–660 | Upper mantle | 3.4–4.4 |
660-2890 | Lower mantle | 3.4–5.6 |
100–700 | Asthenosphere | — |
2890–5100 | Outer core | 9.9–12.2 |
5100–6378 | Inner core | 12.8–13.1 |
Chemical composition
Heat
Isotope | Concentration | Heat release in gigawatts |
---|---|---|
232Th | 0.0000124% | 13113 |
238U | 0.00000308% | 11669 |
40K | 0.00000369% | 4331 |
235U | 0.000000022% | 501 |
Tectonic plates
Surface
Gravitational field
Magnetic field
Orbit and rotation
Rotation
Orbit
Axial tilt and seasons
Earth-Moon system
Moon
Diameter | 3,474.8 km |
Mass | 7.349×1022 kg |
Semi-major axis | 384,400 km |
Orbital period | 27d 7h 43.7m |
Asteroids and artificial satellites
Hydrosphere
Atmosphere
Weather and climate
Upper atmosphere
Life on Earth
Human geography
Natural resources and land use
Land use | Percentage |
---|---|
Cropland | 12–14% |
Pastures | 30–47% |
Human-used forests | 16–27% |
Infrastructure | 1% |
Unused land | 24–31% |
Humans and environment
Cultural and historical viewpoint
See also
Notes
- ^ All astronomical quantities vary, both secularly and periodically. The quantities given are the values at the instant J2000.0 of the secular variation, ignoring all periodic variations.
- ^ b aaphelion = a × (1 + e); perihelion = a × (1 – e), where a is the semi-major axis and e is the eccentricity. The difference between Earth's perihelion and aphelion is 5 million kilometers.—Wilkinson, John (2009). Probing the New Solar System. CSIRO Publishing. p. 144. ISBN 978-0-643-09949-4.
- ^ b aAs of 4 January 2018, the United States Strategic Command tracked a total of 18,835 artificial objects, mostly debris. See: Anz-Meador, Phillip; Shoots, Debi, eds. (February 2018). "Satellite Box Score" (PDF). Orbital Debris Quarterly News. 22 (1): 12. Retrieved 18 April 2018.
- ^ Earth's circumference is almost exactly 40,000 km because the meter was calibrated on this measurement—more specifically, 1/10-millionth of the distance between the poles and the equator.
- ^ Due to natural fluctuations, ambiguities surrounding ice shelves, and mapping conventions for vertical datums, exact values for land and ocean coverage are not meaningful. Based on data from the Vector Map and Global Landcover Archived 26 March 2015 at the Wayback Machine datasets, extreme values for coverage of lakes and streams are 0.6% and 1.0% of Earth's surface. The ice sheets of Antarctica and Greenland are counted as land, even though much of the rock that supports them lies below sea level.
- ^ If Earth were shrunk to the size of a billiard ball, some areas of Earth such as large mountain ranges and oceanic trenches would feel like tiny imperfections, whereas much of the planet, including the Great Plains and the abyssal plains, would feel smoother.[88]
- ^ Locally varies between 5 and 200 km.
- ^ Locally varies between 5 and 70 km.
- ^ Including the Somali Plate, which is being formed out of the African Plate. See: Chorowicz, Jean (October 2005). "The East African rift system". Journal of African Earth Sciences. 43 (1–3): 379–410. Bibcode:2005JAfES..43..379C. doi:10.1016/j.jafrearsci.2005.07.019.
- ^ The ultimate source of these figures, uses the term "seconds of UT1" instead of "seconds of mean solar time".—Aoki, S.; Kinoshita, H.; Guinot, B.; Kaplan, G. H.; McCarthy, D. D.; Seidelmann, P. K. (1982). "The new definition of universal time". Astronomy and Astrophysics. 105 (2): 359–61. Bibcode:1982A&A...105..359A.
- ^ For Earth, the Hill radius is , where m is the mass of Earth, a is an astronomical unit, and M is the mass of the Sun. So the radius in AU is about .
- ^ Aphelion is 103.4% of the distance to perihelion. Due to the inverse square law, the radiation at perihelion is about 106.9% of the energy at aphelion.
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