Map Energy Time Uncertainty To Being HUMAN Rather Than SPECTROSCOPY:

Excited states have a finite lifetime. By the time-energy uncertainty principle, they do not have a definite energy, and each time they decay the energy they release is slightly different. The average energy of the outgoing photon has a peak at the theoretical energy of the state, but the distribution has a finite width called the natural linewidth. Fast-decaying states have a broad linewidth, while slow decaying states have a narrow linewidth

So you have a high linewidth (bandwidth) life, you have shorter excited state, and vice versa? Regarding to high risk behavior and early death.

Published by Pete Ippel

Pete Ippel, the son of a dancer and a musician, was born in Oak Park, Illinois and has been surrounded by the arts since birth. He moved to Morris, Illinois in 1989 and started to participate in athletics rather than dance. After high school, Pete attended Cornell University where he received a BA in psychology and a BFA in photo / digital art making. He continued to follow his sporting dreams in the high jump, which culminated in a school record leap of 7 feet 1/2 inch in 2001. In May 2004 he attained an MFA degree in the New Genres department of the San Francisco Art Institute. Presently Pete is a practicing artist whose work is in numerous private collections and has been exhibited in New York, California, and internationally. Mr. Ippel resides in Working Artists Ventura, a sustainable artist community in southern California. In addition, he teaches art, is a web developer, an active blogger, and still high jumps from time to time. As a passionate problem solver and a pragmatic optimist, Pete’s art and his life are full of exciting challenges.

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