Gauss

Gaussian gravitational constant
Carl Friedrich Gauss expressed the gravitational constant in units of the solar system rather than SI units.

Gauss was the only child of poor parents. He was rare among mathematicians in that he was a calculating prodigy, and he retained the ability to do elaborate calculations in his head most of his life.

Gauss
(a) The cgs unit of magnetic flux density. 1 gauss = 1 maxwell per square centimeter = 10-4 tesla.
(b) The gauss is the CGS unit of magnetic flux density.

Gauss. The unit of magnetic induction in the cgs (centimeter-gram-second) system.

Gauss
A unit used to measure the strength of a magnetic field.
General Relativity ...

Gaussian Blur - A mathematical function that is applied to an image to blur it based on a bell-shaped curve or Gaussian distribution, named after the famous German mathematician Karl Friedrich Gauss.

Gauss. A unit of measurement of a magnetic field. Earth has a surface magnetic field strength of between 0.3 and 0.6 Gauss.

GAUSS
The gauss is a unit of magnetic induction (denoted B) in the cgs system (centimeter-gram-second). A changing magnetic field produces an electric current - this is called magnetic induction.

Gaussian White Noise Process - Dictionary Definition of Gaussian White Nois...
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Noise Distraction
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drown out ...

Gauss (unit)
The gauss, abbreviated as G, is the cgs units of measurement of a magnetic field B , named after the German mathematician and physicist Carl Friedrich Gauss....
, especially in older literature).

In Gaussian units, the speed of light fixes the ratio between electrostatic units and electromagnetic units.
Doppler shift
Main article: Doppler shift ...

This Gaussian distribution becomes more precisely defined as the measurement period is extended or as separate measurement intervals are added together.

How did Gauss calculate the date Easter will fall on?
How does the tilt of the Earth's axis affect the seasons?
Why is winter colder than summer?

degauss (NASA SP-7, 1965) Slang for demagnetize. degenerate matter (NASA Thesaurus) A state of matter found in white dwarf stars and other ultrahigh-density objects in which the electrons follow Fermi-Dirac statistics, i.e.

degauss Slang for demagnetize. degradation Gradual deterioration in performance. degree of freedom 1. A mode of motion, either angular or linear, with respect to a coordinate system, independent of any other mode.

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159. Gauss
A unit used to measure the strength of a magnetic field.

A model in which Gaussian angular scattering is concentrated near one point along the path. [H76]
Thirring Effect ...

0E-05 GAUSS, also equal to 1 NANOTESLA. GAMMA RAYS. High energy radiation (energies in excess of 100 keV) observed during large, extremely energetic solar FLARES. GAUSS.

Magnetic fields in white dwarfs with a strength at the surface of ~1 million Gauss were predicted by P. M. S.

The " method of least squares," by which the most probable result can be educed from a body of observational data, was published by Adrien Marie Legendre in 1806, by Carl Friedrich Gauss in his Theoria Motus (1809), ...

5 Gauss (that's the unit of measure for magnetic fields). A typical refrigerator magnet has a strength of about 100 Gauss. The Sun's magnetic field has a strength of around a few thousand Gauss (remember all those sunspots).

Pulsars are rapidly rotating, very strongly magnetised neutron stars, with fields of strength reaching 1000 million Tesla (10 million million Gauss. For comparison, the Earth's magnetic field measures less than 1 Gauss).

Thus the distribution of last-scattering redshift (specifically e-t dt/dz) is strongly peaked, almost Gaussian with mean of z=1065 and standard deviation sz = 80. (WMAP data give zrec = 1089 ± 97).

" Neutron star with an ultra-strong magnetic field (~1015 gauss). The magnetic field is between 100 and 1,000 times stronger than that of a radio pulsar, making them the most magnetic objects known.

The polars have poor cousins called intermediate polars, or DQ Herculis stars, which (probably) have weaker magnetic fields (5 megagauss or less).

Lenses of reasonably high quality had been produced for telescopes and microscopes since the late 1700s, and in 1841 the German mathematician Carl Friedrich Gauss published his influential treatise on geometrical optics.

This led the German mathematician Carl Friedrich Gauss to develop in 1801 a method for computing the orbit of an asteroid from only a few observations, a technique that has not been significantly improved since.

A typical sunspot has a magnetic-field strength of 2500 gauss. For comparison, the earth's magnetic field has a strength of less than 1 gauss.

In conventional units, the magnetic intensity intensity in them reached about 1500 gauss (0.15 Tesla), while the field near the surface of Earth is typically 0.3-0.5 gauss, depending on location.

They have magnetic field strengths of 100-1000 gauss and lifetimes of 2 months. The number of sunspots varies with a period of 11 y. During each cycle, sunspots migrate from high latitudes to the equator.

The field strength at the surface varies, depending on which hemisphere is being measured, from a maximum of more than 1 gauss in the southern hemisphere to a minimum of less than 0.1 gauss in the northern.

at the equator [= (equatorial - polar diameter)/(equatorial diameter)]; and axis tilt is the tilt of the planet's rotation axis with respect to its orbital plane; magnetic field (mag. field) is the total strength (NSSDC gives strength in #gauss × ...

The powerful (10 to 100 megagauss) magnetic field of the white dwarf captures infalling material from the red dwarf before it can form an accretion disk and forces it instead into an accretion stream or funnel, ...

Using the Gauss-Bonnet theorem, Stephen Hawking proved that the topology of the event horizon of a (four dimensional) black hole is a 2-sphere. At the event horizon, the escape velocity is equal to the speed of light.

He took three distinct observations; on the basis of these the mathematician Gauss calculated Ceres' orbit with such accuracy that it was found one year later within 0.5° of the predicted position.

At ~1015 gauss, the magnetic field is a thousand trillion times stronger than the Earth's, and between 100 and 1,000 times stronger than that of a radio pulsar, making them the most magnetic objects known.

The current distribution is an almost perfect Gaussian, which is indicated by the blue line. The mean of the fit is 15.751±0.004 and the width is 1.642±0.005.

Color images taken with short focal lenght optics (like telephoto lenses) suffer from unnaturally colored star images. Applying Gaussian blur filter to "a" and "b" layers significantly improves appearence of star images without affecting any ...

A Dictionary of Computing entry for quadrature amplitude modulation
A Dictionary of Computing entry for QAM
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The earth's mass = 5.98 X 1027 g, its mean radius = 6371 km, its surface magnetic field = 0.31 gauss.
5 ...

The International Astronomical Union defines the AU as the distance from the Sun at which a particle of negligible mass, in an unperturbed orbit, would have an orbital period of 365.2568983 days (a Gaussian year). The AU is thus defined as 1.

AU is short for Astronomical Unit and defined as: the radius of an unperturbed circular orbit around the Sun of a massless body having an orbital period of 2*(pi)/k days (k is the Gaussian gravitational constant).

See also: Time, Earth, Planet, Solar, Distance