What is the difference between model of Heisenberg uncertainty model and bohr s model
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Bohr's model of the atom assumes fixed orbits AND trajectories for the electron. Simultaneously known orbits and trajectories violate the Heisenberg Uncertainty Principle. The problem is, electrons do NOT travel in fixed orbits, and they do NOT travel with fixed trajectories.
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To put it in simple terms-
Bohr moved in atomic circles while Schrodinger waved and Heisenberg hesitated
Okay, all jokes aside, here's your answer:
PS- I goog.led it
- In the Bohr model, the electrons are particles that occupy only certain orbits of fixed energy around the nucleus.
- In the Schrödinger model, the electrons behave as standing waves that have greater probability of being in some regions of space (orbitals) than in others. The electrons have fixed energies depending on the orbitals they occupy.
- Heisenberg developed a mathematical way of expressing the energy levels of electrons in atoms. His theory states that there is uncertainty in measuring such features of a particle as the position and momentum of an electron are hard to predict. The quantum Heisenberg model is a statistical mechanical model used in the study of critical points and phase transitions of magnetic systems, in which the spins of the magnetic systems are treated quantum mechanically.
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