The structure of a star is uniquely determined by its mass and chemical composition. Unique models are constructed by varying the assumed composition with the known mass until the observed radius, luminosity, and surface temperature are matched. The process also requires assumptions about the convective zone. Such models can now be tested by the new science known as helioseismology.
Helioseismology is analogous to geoseismology: frequencies and wavelengths of various waves at the Sun’s surface are measured to map the internal structure. On the Earth the waves are observed only after earthquakes, while on the Sun they are continuously excited, probably by the currents in the convective zone. While a wide range of frequencies are observed, the intensity of the oscillation patterns, or modes, peaks strongly at a mode having a period of five minutes. The surface amplitudes range from a few centimetres per second to several metres per second. The modes where the entire Sun expands and contracts or where sound waves travel deeply through the Sun, only touching the surface in a few nodes (i.e., points of no vibration), make it possible to map the deep Sun. Modes with many nodes are, by contrast, limited to the outer regions. Every mode has a definite frequency determined by the structure of the Sun. From a compilation of thousands of mode frequencies, one can develop an independent solar model, which reproduces the observed oscillations quite well. The frequencies of the modes vary slightly with the sunspot cycle.
As the Sun rotates, one half is moving toward us, and the other away. This produces a splitting in the frequencies of the modes (owing to the Doppler shift from the two halves of the Sun). Because the different modes reach different depths in the Sun, the rotation at different depths can be mapped. The rotation of the Sun as a function of depth and latitude is shown in Figure 1![Figure 1: The internal rotation of the Sun as a function of depth and latitude, as derived from …[Credits : Big Bear Solar Observatory, California Institute of Technology]](http://media-2.web.britannica.com/eb-media/09/4309-003-69EA4D4A.gif)
. The interior below the convective zone rotates as a solid body. At the surface rotation is fastest at the equator and slowest at the poles. This differential rotation is easily visible as sunspots rotate across the solar surface, and it has been known since the first telescopic studies. At the equator the sunspots rotate at a 25-day rate, and at high latitudes at a 28- or 29-day rate. The differential rotation, apparently generated by the convective zone, is thought to play an important role in the generation of the magnetic field of the Sun. Much is not understood, however, for many solar features show less differential rotation.
The-internal-rotation-of-the-Sun-as-a-function-ofFigure 1: The internal rotation of the Sun as a function of depth and latitude, as derived from …[Credits : Big Bear Solar Observatory, California Institute of Technology]
The-gravitational-force-FG-exerted-by-the-Sun-on-theFigure 9: The gravitational force FG exerted by the Sun on the …
Monthly-satellite-measurements-of-total-solar-irradiance-since-1980-comparingMonthly satellite measurements of total solar irradiance since 1980 comparing NASA’s ACRIMSAT data …
The-trend-shown-in-the-longer-reconstruction-was-inferred-byThe trend shown in the longer reconstruction was inferred by Lean (2000) from modeling the changes …
The-eight-planets-of-the-solar-system-and-Pluto-inThe eight planets of the solar system and Pluto, in a montage of images scaled to show the …[Credits : NASA/Lunar and Planetary Laboratory]
Twelve-solar-X-ray-images-obtained-by-Yohkoh-between-1991Twelve solar X-ray images obtained by Yohkoh between 1991 and 1995. The solar coronal brightness …[Credits : G.L. Slater and G.A. Linford; S.L. Freeland; the Yohkoh Project]
Venus-crossing-the-face-of-the-Sun-in-a-telescopicVenus crossing the face of the Sun, in a telescopic image recorded on a photographic plate on Dec. …[Credits : U.S. Naval Observatory Library]
The-Sun-as-imaged-in-extreme-ultraviolet-light-by-theThe Sun as imaged in extreme ultraviolet light by the Earth-orbiting Solar and Heliospheric …[Credits : NASA]
This time-lapse film shows the formation and dissolution of granules, updrafts of gas that form …[Credits : NASA]This time-lapse film shows the formation and dissolution of granules, updrafts of gas that form …[Credits : NASA]
The solar corona is a veil of plasma surrounding the Sun. This film shows what the corona looks …[Credits : NASA]The solar corona is a veil of plasma surrounding the Sun. This film shows what the corona looks …[Credits : NASA]
The sun is a star, but it looks bigger and brighter than the others because it is the closest to us.[Credits : Acquired from Vast Video]
Air behaves in many different ways and impacts the weather accordingly.[Credits : Acquired from Vast Video]
Learn how the land, the air, the oceans, and the sun power the Earth’s weather.[Credits : Acquired from Vast Video]
Learn what influences the Sun has on terrestrial weather, including the winds and oceans.[Credits : Acquired from Vast Video]
Prominences are clouds of incandescent, ionized gas ejected from the Sun’s surface. They are also …[Credits : NASA]
Total solar eclipse.[Credits : Encyclopædia Britannica, Inc.]
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