What is the Difference Between Bohr and Rutherford Model?
🆚 Go to Comparative Table 🆚The Bohr and Rutherford models are both atomic models that describe the structure of the atom, but they have some differences. Here are the main differences between the two models:
- Electron orbits: In the Rutherford model, electrons orbit the nucleus in set, predictable paths. In contrast, the Bohr model posits that electrons travel in defined circular orbits around the nucleus.
- Electron energy levels: Bohr's model introduces the concept of quantized energy levels for electrons, meaning that electrons can only occupy specific energy levels or shells around the nucleus. The Rutherford model does not have this concept of quantized energy levels.
- Atomic structure: Rutherford's model describes the atom as consisting of a tiny, positively charged nucleus surrounded by a cloud of negative electrons. Bohr's model places the electrons in distinct energy levels or shells, which are not present in the Rutherford model.
In summary, while both models describe electrons orbiting a positively charged nucleus, the Bohr model adds the concepts of quantized energy levels and defined circular orbits, which are not present in the Rutherford model.
On this pageWhat is the Difference Between Bohr and Rutherford Model? Comparative Table: Bohr vs Rutherford Model
Comparative Table: Bohr vs Rutherford Model
Here is a table comparing the differences between the Bohr and Rutherford models of atomic structure:
Feature | Rutherford Model | Bohr Model |
---|---|---|
Proposed by | Ernest Rutherford (1911) | Niels Bohr (1915) |
Modification | Not a modification of any previous model | A modification of the Rutherford model |
Atomic Structure | Describes the atom as consisting of a tiny positive mass (protons) surrounded by a cloud of negative electrons | Shows the atom as a central nucleus containing protons and neutrons with electrons in circular orbitals at specific distances |
Electrons | Does not explain the presence of electrons | Describes electrons as traveling in specific shells or orbits around the nucleus, with different energies and spherical shapes |
Energy Levels | Does not describe the presence of discrete energy levels | Describes the presence of discrete energy levels |
Size of Orbitals | Does not explain the relationship between orbital size and the energy of the electrons | Explains the relationship between orbital size and the energy of the electrons |
The Bohr model is considered a modification of the Rutherford model and is based on observations of the line spectra of the hydrogen atom.
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