Well to answer this question we need something to compare how much energy is done to. This queston needs more information before it can be answered.
no it relly does not
While the boiling water is at a higher temperature, the iceberg contains significantly more thermal energy due to its larger mass. The iceberg has stored more heat energy to maintain its frozen state, whereas the boiling water is closer to its boiling point but has less overall energy.
The higher the density of a liquid, the higher its boiling point tends to be. This is because denser liquids generally have stronger intermolecular forces, which require more energy to overcome and reach the boiling point. Conversely, less dense liquids with weaker intermolecular forces will have lower boiling points.
this is because glycerol have two hydroxyl group which form it more boiling pointdue to hydrogen bond while ethanol have one hydroxyl group that is why toform it less boiling boint than glyceerol.
Substances with high boiling points require more energy to vaporize, which can make them less likely to evaporate quickly and cause harm through inhalation. In contrast, substances with low boiling points can quickly vaporize at room temperature, increasing the risk of inhalation and potential harm. Additionally, high boiling points may indicate that a substance is less volatile and less likely to catch fire or explode.
It requires energy.
It requires energy.
A pan of boiling water has more heat energy than an iceberg. This is because the water in the pan is at a much higher temperature compared to the ice in the iceberg. Heat energy is directly related to temperature - the higher the temperature, the more heat energy an object has.
Generally, higher energy levels are less abundant than lower energy levels. This is because higher energy levels require more energy input to reach and maintain, so they are less commonly found in nature compared to lower energy levels that are more stable and prevalent.
yeah. they will have less kinetic energy as they require more force to move
Our energy needs depend on body mass because larger bodies require more energy to sustain basic functions like metabolism and movement. This is because more tissue and cells need to be supported and fueled by energy in larger bodies. Smaller bodies have less mass to maintain and therefore require less energy.
They need less energy because they don't do as much as when they were younger. Unless they are doing heavy work then they do require more energy