Textbook Question
Rank the bonds from most polar to least polar.
d. C—H, C—C, C—N
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1. A Review of General Chemistry
Electronegativity
1:35 minutesProblem 34
Textbook Question
According to the potential map for the ammonium ion <IMAGE>, which atom has the greatest electron density?
Verified step by step guidance1
Examine the potential map provided for the ammonium ion (NH₄⁺). The map uses color coding to represent electron density, where blue typically indicates regions of high electron density and red indicates regions of low electron density.
Identify the atoms in the ammonium ion structure. The central atom is nitrogen (N), and it is surrounded by four hydrogen (H) atoms.
Observe the color distribution around the atoms. In the image, the nitrogen atom is surrounded by blue, indicating higher electron density, while the hydrogen atoms are surrounded by red or orange, indicating lower electron density.
Recall that nitrogen is more electronegative than hydrogen, meaning it attracts electrons more strongly. This aligns with the observation that nitrogen has the greatest electron density in the ammonium ion.
Conclude that the atom with the greatest electron density in the ammonium ion is the nitrogen atom, based on the potential map and the electronegativity of nitrogen compared to hydrogen.
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Video duration:
1mKey Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Electron Density
Electron density refers to the probability of finding electrons in a particular region around an atom or molecule. It is often visualized using electron density maps, which represent areas of high and low electron concentration. In the context of the ammonium ion, understanding electron density helps identify which atom has the greatest electron presence, influencing its reactivity and bonding characteristics.
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Ammonium Ion Structure
The ammonium ion (NH4+) consists of a nitrogen atom bonded to four hydrogen atoms, forming a tetrahedral geometry. This structure is crucial for understanding the distribution of electron density within the ion. The nitrogen atom, being more electronegative than hydrogen, attracts electron density towards itself, which can be visualized in the potential map provided.
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Potential Maps
Potential maps are graphical representations that illustrate the distribution of electron density around a molecule. They use color gradients to indicate areas of high and low electron density, helping to visualize molecular properties. In the case of the ammonium ion, the potential map allows us to determine which atom has the highest electron density, providing insights into its chemical behavior.
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