<Dd> λ = h p . (\ displaystyle \ lambda = (\ frac (h) (p)).) </Dd> <P> Where p denotes the linear momentum of a particle, such as a photon, or any other elementary particle . </P> <P> In applications where it is natural to use the angular frequency (i.e. where the frequency is expressed in terms of radians per second instead of cycles per second or hertz) it is often useful to absorb a factor of 2π into the Planck constant . The resulting constant is called the reduced Planck constant . It is equal to the Planck constant divided by 2π, and is denoted ħ (pronounced "h - bar"): </P> <Dl> <Dd> ħ = h 2 π . (\ displaystyle \ hbar = (\ frac (h) (2 \ pi)).) </Dd> </Dl>

Difference between planck constant and reduced planck constant
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