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Condensed Matter
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== <span style="color: #FFFFFF;">Analyzing</span> == {| class="wikitable" |+ Types of Magnetic Order ! Type !! Spin Alignment !! Macroscopic Effect |- | Ferromagnetism || All spins parallel (βββ) || Strong permanent magnet |- | Antiferromagnetism || Alternate spins opposite (βββ) || No net magnetism |- | Paramagnetism || Random spins (βββ) || Attracted to magnetic fields |- | Diamagnetism || Opposes applied field (βΊ) || Weakly repelled by magnets |} '''Emergence vs. Reductionism''': While particle physics tries to find the smallest "building blocks," condensed matter shows that knowing the blocks isn't enough to understand the "building." High-temperature superconductivity and the Fractional Quantum Hall Effect are emergent phenomena that were discovered experimentally and challenged existing theories for decades. </div> <div style="background-color: #483D8B; color: #FFFFFF; padding: 20px; border-radius: 8px; margin-bottom: 15px;">
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