What is the main difference between the Schrodinger model and the Bohr atomic model? Schrodinger believed that electrons could only exist in orbits, but Bohr stated that electrons could be found anywhere in the atom. Bohr believed electron orbits were circular, but Schrôdinger's equations represent complex shapes describing the probable locations of electrons The Bohr model did not explain the emission and absorption spectrum, but the energy levels described by Schrõdinger explained this property Bohr believed that the electrons circle the nucleus because positive particles attract negative particles, while Schrodinger believed that an electron was a wave.

## Step 1<br />The Schrödinger model and the Bohr atomic model are two different theories that describe the behavior of electrons in an atom. The main difference between these two models lies in.<br /><br />## Step 2<br />The Bohr model, proposed by Niels Bohr, suggests that electrons move in fixed orbits around the nucleus. This model is often referred to as the "planetary model" because it resembles the solar system, where planets orbit the sun.<br /><br />## Step 3<br />On the other hand, the Schrödinger model, proposed by Erwin Schrödinger, uses complex shapes to describe the probable locations of electrons. This model is based on the wave-particle duality of electrons, which means that electrons can behave like both particles and waves.<br /><br />## Step 4<br />The Schrödinger model does not describe electrons as moving in fixed orbits, but rather as existing in a cloud of probability around the nucleus. This cloud represents the areas where the electron is likely to be found.