Ammonia is less stable than water.
The intermolecular force responsible for ice being less dense than liquid water is hydrogen bonding. In ice, each water molecule forms a stable, open lattice structure due to these hydrogen bonds, which creates more space between the molecules. This arrangement makes ice less dense than liquid water, where the molecules are more closely packed together and can move more freely. As a result, ice floats on water.
You can determine if a substance is more or less dense than water by comparing their densities. Water has a density of 1 g/cm3 at 4 degrees Celsius. If a substance has a density greater than 1 g/cm3, it is more dense than water. If it has a density less than 1 g/cm3, it is less dense than water.
Water is more dense than oil. This is because water molecules are more compact and tightly packed together, leading to a higher density compared to oil molecules which are more spread out and less compact.
SnCl2 is more stable than SnCl4 primarily due to the oxidation states of tin in these compounds. In SnCl2, tin is in a +2 oxidation state, which is more stable due to its ability to achieve a stable electron configuration. In contrast, SnCl4 has tin in a +4 oxidation state, which is less stable because it has a higher positive charge and is more susceptible to hydrolysis and other reactions. Additionally, SnCl4 can be less stable in the presence of moisture since it can readily form SnCl2 and HCl.
You can put a uniform object into water.If it sinks density is higher than water,if floats lesser than water.If you can place anywhere in water,density is equal to water.
The hydrogen bonds in liquid water are less stable than in ice because the molecules in liquid water are moving around and constantly breaking and reforming bonds, whereas in ice, the molecules are more rigidly arranged in a crystalline structure, allowing for stronger and more stable hydrogen bonds to form.
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!
Less options = Less problems
because it is less stable
The magnesium in part B is more stable than in part A because it is in the form of magnesium sulfate (MgSO4), which is a stable compound. In contrast, the magnesium in part A is likely in a more reactive form, such as magnesium metal or magnesium oxide, which can react with air or water.
Ice is less dense than water
less
Entropy is the measure of disorderness. Hot water --> more energy --> less stable --> more disorderness (than Cold water). Therefore, Entropy of Hot water is greater than that of Cold water.
Of course they are more stable, therefore they formed naturally.
ms windows is byfar less stable than unix
Carbon has a higher bond order than water because it is a less stable element. It will bond to many different elements very quickly in order to become stable.