What is Quantum Uncertainty?
Quantum uncertainty, or more formally, the Heisenberg uncertainty principle, is a finding in quantum physics that states that one cannot simultaneously know both the exact position and exact momentum of a single particle. The uncertainty principle also gives mathematically precise (quantitative) confidence limits for pairs of measurements. Essentially, the more precisely you want to know one value, the more accuracy you must sacrifice in your measurement of the other. Because of its association with the quantum mechanics revolution, quantum uncertainty has a lasting place in popular culture, where it is often misinterpreted. Quantum uncertainty in movies and films is sometimes used incorrectly to refer to large objects, when it really only applies to particles. Also, the idea of quantum uncertainty is often presented in a mysterious way, without the mention that the concept goes hand in hand with precise quantitative confidence bounds, which are not so mysterious. The notion of quantum
Quantum uncertainty, or more formally, the Heisenberg uncertainty principle, is a finding in quantum physics that states that one cannot simultaneously know both the exact position and exact momentum of a single particle. The uncertainty principle also gives mathematically precise (quantitative) confidence limits for pairs of measurements. Essentially, the more precisely you want to know one value, the more accuracy you must sacrifice in your measurement of the other. Because of its association with the quantum mechanics revolution, quantum uncertainty has a lasting place in popular culture, where it is often misinterpreted. Quantum uncertainty in movies and films is sometimes used incorrectly to refer to large objects, when it really only applies to particles. Also, the idea of quantum uncertainty is often presented in a mysterious way, without the mention that the concept goes hand in hand with precise quantitative confidence bounds, which are not-so-mysterious. The notion of quantum
Quantum uncertainty, or more formally, the Hisenberg uncertainty principle, is a finding in quantum physics that states that one cannot simultaneously know both the exact position and exact momentum of a single particle. The uncertainty principle also gives mathematically precise (quantitative) confidence limits for pairs of measurements. Essentially, the more precisely you want to know one value, the more accuracy you must sacrifice in your measurement of the other. Because of its association with the quantum mechanics revolution, quantum uncertainty has a lasting place in popular culture, where it is often misinterpreted. Quantum uncertainty in movies and films is sometimes used incorrectly to refer to large objects, when it really only applies to particles. Also, the idea of quantum uncertainty is often presented in a mysterious way, without the mention that the concept goes hand in hand with precise quantitative confidence bounds, which are not-so-mysterious. The notion of quantum
