Question

for a quantum wave particle, E=

Answer 1

Answer:

E=hf

Explanation:

Wave–particle duality is the concept in quantum mechanics that every particle or quantum ... and the energy of these oscillators increased linearly with frequency (according E = hf where h is Planck's constant and f is the frequency).

Answer 2

For a quantum wave-particle, $E=$ $h$ω

• Quantum mechanics is a field of mechanics that uses mathematical representations to analyse the motion and interaction of subatomic particles such as electrons, protons, and neutrons (linear algebra, vector space, differential equations, special integrations, etc.)
• There are certain wave qualities linked with quantum particles or subatomic particles in quantum physics.
• In quantum physics, the state of a quantum particle at any given time is characterised by two quantities: location and velocity.

• A quantum particle in a given system is handled as a wave particle in quantum mechanics.
• Wave packets are supposed to be a linear mixture of many waves that constructively interfere.

The energy associated with such a wave particle is given by

$E=hv$

Since $v=$ ω ÷ 2π

where ω is the angular frequency

Substituting the values we have,

$E=$ $h$ω

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