Magness returns to Landmark City dating a street biker named D-Zel. Before she could be taken into custody Paine rescues her and they escape in his helicopter. This made it hot enough for Axel to get his Jo-Lan powers back and defeat Magness. She accidentally ignited some fuel in a bunker, lighting it on fire. She and Axel fought with his powers negated by hers. Paine also warned her about the Alpha Teens, so she tried to keep them out of the way and kill Axel personally. Magness was ordered by Paine use her powers to vibrate the iron ore in the mountain to cause an avalanche burying Landmark City's officials alive. When a suspicious (and jealous) Lioness discovers her powers, Magness takes action tying her up with the resorts true doctor. Right away she started flirting with Axel. She tells them that a bunch of Landmark City's top officials, including its mayor, were meeting at the resort for a conference on crime. When the Alpha Teens go on vacation at a ski resort on Iron Mountain, a mountain made up mostly of iron ore, they first met Magness, under the guise of the ski resort's doctor. ![]() While Magness is Paine's daughter, she is not officially part of his gang. Magness also knows martial arts to the point where she can keep up with Axel in a fair fight. But her powers are weakened by extreme heat, i.e. ![]() Her magnetic powers are increased in extreme cold, i.e. The extent of which is her ability to control most metals (gold being one exception), disrupting electronics, levitation and canceling Jo-Lan powers. Samantha Paine aka Magness is the daughter of Alexander Paine. In the second season Magness appeared in a suit consisting of black trousers with a fiery and print at the bottom of the jacket, a red shirt and a black shirt underneath. The entire first season of junior Paine wears a black oriental tunic with a cut on his right hip, Asian-type red jacket with short sleeves and a symbol "+" on the left shoulder and "-" on the right, straight black trousers and matching mittens labeled poles respectively. Having appeared in the first series, it was in black and red winter jacket and pants, yellow shoes and gloves. Eyes lilac shade near the right - a birthmark. Pale skin, black hair to his shoulders, ending with red tips. As one of the major mechanisms for product formation, the simultaneous or fast consecutive reactions of a hot carbon with two target molecules (reaction complex) is discussed.She inherited straight facial features. Products of hot reactions in solids are more complex than in corresponding gaseous systems, which underlines the importance of solid state reactions for the build-up of precursors for biomolecules in space. Typical reactions products are: CO, CO2, CH4, CH2O, CH3OH, HCOOH, NH3, CH3NH2, cyanamide, formamidine, guanidine etc. Nuclear reactions used for the generation of 2 to 3 MeV atoms are: N(p,alpha) 11C, 16O(p,alpha pn) 11C and 12C(d,n) 13N with 8 to 45 MeV protons or deuterons from a cyclotron. Experimental results are given for the systems: C/H2O (gas), C/H2O (solid, 77 K), N/CH4 (solid, 77K) and C/NH3 (solid, 77 K). ![]() Due to the effective measurement of 10(8)-10(10) atoms only it covers a low to medium dose regime and may add to the studies of ion implantation which due to the optical methods applied are necessarily in the high dose regime. Hot atom chemistry may serve for laboratory simulation of the reactions of energetic species with gaseous or solid interstellar matter. The chemical fate of the radioactive atoms can be followed by radiochemical methods (radio GC or HPLC). "Hot" atoms with energies ranging from a few eV to some MeV can be generated via nuclear reactions and consequent recoil processes. High energy chemical reactions and atom molecule interactions might be important for cosmic chemistry with respect to the accelerated species in solar wind, cosmic rays, colliding gas and dust clouds and secondary knock-on particles in solids.
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