Ultimately all it means is that the system is loosing its initially stored energy, changing to a less ordered state, and radiating the energy eventually to the cosmic background.
The earth would be colder than it would be now. In other words, we would all die in seconds
Energy cannot be destroyed, it can only be converted into an equivilent amount of matter. Specifically the amount of matter related as M = E/C^2
Essentially, it would cook itself.
energy doesn't happen, it exists. for energy to happen, energy would have to be an action (verb), but it is a thing (noun).
the temperature of the rock will rise faster
Energy must be released-- A gas has a high amount of energy with it's atoms speeding around inside of it, a liquid has less energy, and a solid has the least. energy.
it will decrease
That is false. Assuming an exothermic reaction, e.g., a fusion of hydrogen to helium:The total amount of mass before and after the reaction is the same. (Any energy leaving the atom has a mass equivalent.)The total amount of energy before and after the reaction is the same. (The energy was there previously, in the form of potential energy).
If water absorbs a large amount of energy it boils.
Energy cannot be destroyed, it can only be converted into an equivilent amount of matter. Specifically the amount of matter related as M = E/C^2
Depending on the liquid, and the amount of energy, it would either evaporate, boil, burn, or explode.
Time is not dependent upon anything. Time is what it is. However, the amount of time necessary for something to happen IS dependent upon the amount of energy put into it, the amount of mass it is happening to and the distance across which it is happening.
Essentially, it would cook itself.
The cell membrane and all its organelles would burst.
Nothing. Provided the earth remains in the same orbit, then a change of rotation would not change the amount of solar energy reaching the earth.
energy doesn't happen, it exists. for energy to happen, energy would have to be an action (verb), but it is a thing (noun).
It rots
the temperature of the rock will rise faster