Bose-Einstein Condensate
Chemistry ⇒ States of Matter
Bose-Einstein Condensate starts at 11 and continues till grade 12.
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See sample questions for grade 12
Calculate the de Broglie wavelength of a rubidium atom (mass = 1.44 × 10-25 kg) moving at 1 mm/s. (Planck's constant h = 6.626 × 10-34 J·s)
Describe one experimental method used to achieve the extremely low temperatures required for Bose-Einstein Condensation.
Describe one potential application of Bose-Einstein Condensates in technology or research.
Describe the significance of Bose-Einstein Condensate in understanding quantum mechanics at a macroscopic scale.
Explain the role of quantum statistics in the formation of Bose-Einstein Condensate.
Explain why Bose-Einstein Condensates are not commonly found in nature.
Explain why only bosons, and not fermions, can form a Bose-Einstein Condensate.
Explain why the study of Bose-Einstein Condensates is important for understanding the transition between quantum and classical physics.
Name the two scientists who shared the Nobel Prize in Physics in 2001 for the creation of Bose-Einstein Condensate.
State the Pauli exclusion principle and explain why it prevents fermions from forming a Bose-Einstein Condensate.
What is the main difference between Bose-Einstein Condensate and Fermi-Dirac Condensate?
Which quantum statistical distribution describes the behavior of particles in a Bose-Einstein Condensate?
Who first predicted the existence of Bose-Einstein Condensate?
