The Planet Rap 2011 Mercury! Venus! Earth! Mars! Jupiter! Saturn

... Venus comes next it’s the hottest one. Earth comes third the only life that we know. Mars has the largest canyon and volcano! Mercury! Venus! Earth! Mars! Jupiter! Saturn! Uranus! Neptune! Mercury! Venus! Earth! Mars! Jupiter! Saturn! Uranus! Neptune! The gassy planet Jupiter, the largest you will f ...

Jupiter in infrared light

... Jupiter’s ring in infrared light  Solar radiation and collisions with charged particles trapped in Jupiter’s magnetic field exert a friction on the ring dust that will eventually cause the dust to drift into the atmosphere  To maintain the ring, new dust must be provided – possibly from collision ...

Magnetic, Electric, and Gravitational Fields

Magnetism - TeacherWeb

Name Section 18-1 “Magnets and Magnetism” pages 510

... _______________________ 7. come from spinning electric charges in the magnets _______________________ 8. can push magnets apart or pull them together _______________________ 9. depend on how two magnets’ poles line up _______________________ 10. are regions around magnets in which magnetic forces ca ...

19.8: Magnetic force between two parallel conductors

Magnetism Review Answers

... cobalt; these three metals when combined are ferromagnetic  Magnetic domain: a cluster of atoms which have aligned magnetic fields  Electromagnet: a current-carrying coil of wire ...

4.1.4 Summary to: Magnetic Materials - Definitions and General Relations

Magnetism Activity Write-up

4.1.4 Summary to: Magnetic Materials - Definitions and General Relations

Magnetism - TeacherWeb

... • The force of magnetism has been known for over 2000 years (Greeks) • Stones with magnetic qualities (magnetite) were first found in Magnesia in Asia Minor • In the Dark Ages magnetism was thought to be caused by evil spirits ...

GS388 Handout: Symbols and Units for Magnetism 1 The different

Magnetic separation

Magnetic force on a current element

Magnetic Fabric in Granitic Rocks: its Intrusive Origin and

Magnetic Properties of Coordination Complexes √ √ μ

... μeff = μs.o = 2√S(S+1) = √n(n+2) BM ...

Magma Supply Vs Magma Plumbing

Magnetic Fields and Forces

Magnetic Levitation - 123SeminarsOnly.com

Magnetism - MWMS HW Wiki

... Pole. A magnet is the strongest at the poles.  Like poles repel each other.  Opposite poles attract each other. ...

Magnets - history and domain theory note

... The domain theory explains magnetic phenomenon by proposing the existence of domains. Domains are small regions within an object that are magnetic. These regions may be from one to hundreds of microns, which is small, but larger than atomic in size. When the polarities of the individual domains are ...

Preparation PHYS2425 Magnetism lab. Charges cause

... Charges cause electric fields. We saw in the first part of the semester that electric field lines start at positive charges and end up at negative charges. We say in physics positive charges are the sources of the electric field lines and negative charges are the sinks. So electric charges create a ...

Experimental study of the recombination of a drifting low

... First results indicate that the fast ionizing and thermal electrons are lost very quickly by axial collection by the end plates. Behind the limiter, no ionization process occurs and the thermalisation of the extracted plasma jet leads to an equilibrium low electron temperature. It is worth noting th ...

Unit #8: Magnetism Review Sheet

... unlike charges, magnetic monopoles (a single north or south pole) has never been observed. Moving charge generates a magnetic field. If there is a magnetic field, moving charge is involved. A charge moving within a magnetic field will experience a magnetic force.  FM = qvB (here q is the charge, v ...

< 1 ... 19 20 21 22 23 24 25 26 27 ... 42 >

Magnetosphere of Saturn

The magnetosphere of Saturn is the cavity created in the flow of the solar wind by the planet's internally generated magnetic field. Discovered in 1979 by the Pioneer 11 spacecraft, Saturn's magnetosphere is the second largest of any planet in the Solar System after Jupiter. The magnetopause, the boundary between Saturn's magnetosphere and the solar wind, is located at a distance of about 20 Saturn radii from the planet's center, while its magnetotail stretches hundreds of radii behind it.Saturn's magnetosphere is filled with plasmas originating from both the planet and its moons. The main source is the small moon Enceladus, which ejects as much as 1,000 kg/s of water vapor from the geysers on its south pole, a portion of which is ionized and forced to co-rotate with the Saturn’s magnetic field. This loads the field with as much as 100 kg of water group ions per second. This plasma gradually moves out from the inner magnetosphere via the interchange instability mechanism and then escapes through the magnetotail.The interaction between Saturn's magnetosphere and the solar wind generates bright oval aurorae around the planet's poles observed in visible, infrared and ultraviolet light. The aurorae are related to the powerful saturnian kilometric radiation (SKR), which spans the frequency interval between 100 kHz to 1300 kHz and was once thought to modulate with a period equal to the planet's rotation. However, later measurements showed that the periodicity of the SKR's modulation varies by as much as 1%, and so probably does not exactly coincide with Saturn’s true rotational period, which as of 2010 remains unknown. Inside the magnetosphere there are radiation belts, which house particles with energy as high as tens of megaelectronvolts. The energetic particles have significant influence on the surfaces of inner icy moons of Saturn.In 1980–1981 the magnetosphere of Saturn was studied by the Voyager spacecraft. As of 2010 it is a subject of the ongoing investigation by Cassini mission, which arrived in 2004.

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Magnetosphere of Saturn