"Kinetic energy" is energy related to movement. If there is no movement, there is no kinetic energy.
No, if a puddle of water is frozen particles in the ice do not have kinetic energy because the water is frozen.
Thermal
The key term here is "conservation of energy". Since energy can't increase or decrease over time, there is no moment when energy is "the greatest".
That depends on how large the puddle is - how wide and how deep and how much water is in the puddle.
Since the late 60s/early 70s, heat has been considered as energy in transit from a body at a higher temperature to one at a lower temperature. Heat is directly comparable to work, where work describes energy in transit from one form into another.So, heat and work both describe transfers of energy, not energy itself.We can use water as an analogy. When it's vapour, we call it a 'cloud', when it condenses, we call it 'rain', when it's on the ground, we call it a 'puddle'. Well, heat and work are equivalent to 'rain' -water in transit between being a cloud and being a puddle!
No, if a puddle of water is frozen particles in the ice do not have kinetic energy because the water is frozen.
I think it's is because the particles moved fast and expand and too because the kinetic energy
the mass remains the same.
"Evaporates".
slid
The enthalpy of vaporization for water is 40,65 kJ/mol.
No, evaporation is endothermic as the liquid needs to absorb energy to evaporate
Thermal
A small, kind Grim reaper then a small black dragon, then a frozen wolf, then a pretty lion, then a water puddle.
The key term here is "conservation of energy". Since energy can't increase or decrease over time, there is no moment when energy is "the greatest".
Think of a puddle of water evaporating on the ground. Will that puddle evaporate more quickly with wind or without wind? The water molecules will only evaporate when they gain enough kinetic energy to break free and become vapor. Wind facilitates this by giving the molecules that extra push of energy. The same applies to plants and transpiration. Wind will increase the rate of transpiration and water-loss through the leaves of a plant. However, initial water-loss triggers the closing action of the stomata (openings by which water evaporates) and transpiration rate will slow.
A small, kind Grim reaper then a small black dragon, then a frozen wolf, then a pretty lion, then a water puddle.