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Step 1:I'll solve this step-by-step using the Bohr model for potassium.
Step 2:: Identify Potassium's Atomic Structure
- Potassium is element number 19 on the periodic table - Atomic number Z = 19 - Number of electrons = 19
Step 3:: Electron Configuration
- Potassium's electron configuration is $$1s^{2} 2s^{2} 2p^{6} 3s^{2} 3p^{6} 4s^{1}
- The outermost electron is in the 4s orbital
Step 4:: Bohr Model Representation
N \text{ shell (n=4)}: 1 \text{ electron}
- In the Bohr model, electrons occupy specific energy levels (shells) - Potassium will have electrons distributed in K, L, M, and N shells - Electron distribution:
Step 5:: Bohr Model Diagram
- Nucleus at center with 19 protons - Electrons orbiting in discrete energy levels - Outermost electron in 4th energy level
Final Answer
The Bohr model for potassium consists of 19 electrons distributed across 4 energy levels, with the outermost electron in the 4s orbital, located in the 4th energy level.
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