hydried is more stable than H-atom
Each element can form stable, less stable or unstable compounds.
NH3 (ammonia) is less stable than water due to its lower boiling point and reactivity with acids. Water is a more stable molecule due to its strong hydrogen bonding and overall lower reactivity compared to ammonia.
To have a more or less stable orbit, the rocket will have to orbit OUTSIDE of the atmosphere.
Neon is stable because it is a noble gas, and is alreadyat the highest configuration already.Where as carbon is not in its highest configuration (2,4) so it can gain 4 electrons or gain 4 electrons thats why it is not more stable.... conclusion ---- neon is more stable ..
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Lithium hydride is more stable than other alkali hydrides because it has a higher lattice energy due to its smaller size and higher charge density. This results in stronger ionic bonding within the compound, making it more stable. Additionally, lithium hydride's crystal structure is more tightly packed than other alkali hydrides, contributing to its stability.
More stable
Valence electron are found in the outer shell of an atom. Depending on the number of valence electrons, the atom is more or less stable: fewer => less stable and more => more stable (inert). Stable = less likely to react with other atoms.
less stable
Humans balance on two legs. This is less stable than balancing on four legs. The more legs you can lean on, the more stable you are. Centipedes are really stable!
Humans balance on two legs. This is less stable than balancing on four legs. The more legs you can lean on, the more stable you are. Centipedes are really stable!
Lithium aluminum hydride is a stronger reducing agent compared to sodium borohydride. This means that lithium aluminum hydride is more effective at transferring electrons and reducing other substances. Sodium borohydride is milder and less reactive in comparison.
Less options = Less problems
Each element can form stable, less stable or unstable compounds.
NH3 (ammonia) is less stable than water due to its lower boiling point and reactivity with acids. Water is a more stable molecule due to its strong hydrogen bonding and overall lower reactivity compared to ammonia.
Metal aryl compounds are more stable than metal alkyl compounds due to the greater resonance stabilization provided by the aromatic ring in the aryl group. This resonance delocalizes the charges and stabilizes the molecule. In contrast, metal alkyl compounds lack this resonance stabilization and are therefore comparatively less stable.
because it is less stable