Want this question answered?
a magnetic field
Fartical particals
RINGS
An electromagnet uses electricity to create the magnetic field. Moving charges create magnetic fields. Knowing that, if we have a lot of copper wire (with a suitable insulator) wrapped around an iron core, we can send direct current through that wire, and it will create a magnetic field. The magnetic field will magnetize the iron core, and the core becomes a magnet. Wrapping wire around a nail and connecting a battery to the ends of the wire will make a simple electromagnet.
Many people in the world use a magnetic notice board. One will need superglue, a sheet of magnet, a tray, some fabric, and a needle to create a magnetic notice board.
The type of matter in which particles are lined up pole-to-pole is magnetic. The poles help create the force from electricity.
color
Acid Particles are magic-magnetic particles of matter in it's highest form, whose composition posses the ability to create photo-images-mental-light forms. A Bailey
The type of matter in which particles are lined up pole-to-pole is magnetic. The poles help create the force from electricity.
Normally you create vacuum by pumping out the air from a sealed container. Electric and magnetic fields would seldom be used, unless you had some electrically charged particles that you wanted to remove from your partial vacuum.
due to there relative position to magnetic north, the metal particles in the tights are attracted to the magnetic pole, thus separating to create the illusion of transparency in the pelvic region.
Auroras are caused by radiation from the sun, called solar wind, interacting with Earth's magnetic field. When magnetic storms occur on the Sun, electrically charged particles (ions) from the corona and solar flares are added to the solar wind produced by the corona. Solar charged particles from the sun, which are normally radiated into space, sometimes get caught in the Earths magnetic field as they come into the upper atmosphere they react with other gases and produce coloured lights. The Earth's magnetic field funnels particles from the solar wind over the polar regions (due to the magnetic nature of the Earth). The charged particles are accelerated by the Earth's magnetic field and interact with the gases in the upper atmosphere and cause the gas molecules to emit light. Electrons in the molecules are excited to higher energy levels by the accelerated charged particles and the electrons release photons when they fall back to lower energy levels. When the ions from the sun first collide with air particles more than 80 kilometres above the ground, each causes a different reaction, and each reaction causes a different color to explode. Collisions of these particles with atmospheric molecules causes energy emission as visible light. Neutral nitrogen particles will create a purplish pink color, while ionic nitrogen transforms into a brilliant blue. If an ion crashes into oxygen in a lower altitude, it becomes the most common aurora, a yellowish-green color. If it however, collides with oxygen at a high level, it will create the rarest blood red aurora. An aurora is sometimes accompanied by a crackling sound. Auroras can occur on other planets. For more information please see the related links.
Becuase the particles in air and the particles in gas clash into each other and sometimes they expand or/and squeeze/entangle together to create pressure. -I think-
Yes, electric current does create magnetic fields
The auroras are primarily the result of charged subatomic particles from the sun, and their deflection toward the poles by the Earth's magnetic field. The swarm of particles is often called, picturesquely, the 'solar wind'.
The auroras we see on Earth are a result of Earth's magnetic field funneling high-energy particles from the sun into Earth's upper atmosphere, where excited electrons in gas molecules create a glow. The moon has no magnetic field and no atmosphere.
Yes. A spinning charge will create a magnetic field as will a moving charge.