4. Observables & Operators. State corresponding classical-mechanical observables and their corresponding quantum-mechanical operator for both linear and rotating systems. (i) Speed (for both linear and rotating systems) (ii) Momentum (for both linear and rotating systems) (iii) Kinetic energy (for both linear and rotating systems) (iv) Mass (for both linear and rotating systems)
4. Observables & Operators. State corresponding classical-mechanical observables and their corresponding quantum-mechanical operator for both linear and rotating systems. (i) Speed (for both linear and rotating systems) (ii) Momentum (for both linear and rotating systems) (iii) Kinetic energy (for both linear and rotating systems) (iv) Mass (for both linear and rotating systems)
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Transcribed Image Text:4. Observables & Operators.
State corresponding classical-mechanical observables and their corresponding quantum-mechanical
operator for both linear and rotating systems.
(i) Speed (for both linear and rotating systems)
(ii) Momentum (for both linear and rotating systems)
(iii) Kinetic energy (for both linear and rotating systems)
(iv) Mass (for both linear and rotating systems)
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