Live Quiz Arena
🎁 1 Free Round Daily
⚡ Enter ArenaWhy does the momentum operator yield real-valued eigenvalues when applied to quantum states?
A)Operator is inherently non-Hermitian always
B)Time evolution is non-unitary in general
C)Operator is Hermitian ensuring real eigenvalues✓
D)Eigenstates are always orthogonal to operator
💡 Explanation
A quantum mechanical operator representing a physical observable must be Hermitian because the eigenvalues correspond to physically measurable quantities, which are real numbers. Therefore, a Hermitian momentum operator guarantees real-valued eigenvalues, rather than complex values that would occur with a non-Hermitian operator.
🏆 Up to £1,000 monthly prize pool
Ready for the live challenge? Join the next global round now.
*Terms apply. Skill-based competition.
Related Questions
Browse Physical Sciences & Mathematics →- A pulsed dye laser with a short cavity length emits a broad spectrum. If the dye concentration is significantly increased, which consequence follows?
- A tokamak plasma experiences increased electron temperature; which consequence follows regarding the power radiated via bremsstrahlung?
- A chemical engineer optimizes an industrial reactor where reactant A becomes product B. Which process is responsible for the rate-limiting step during which the transition state intermediate forms?
- Why does the group of automorphisms of a field extension K/F sometimes fail to coincide with the Galois group of K over F?
- Why does molecular speed distribution broaden for gas in a cylinder heated from 300K to 600K?
- Why does a radioactive isotope decay via alpha emission, rather than beta emission, when its neutron-to-proton ratio is too low for stability?