Anonymous
(ID: xa7Gpdwa)
10/20/2025, 2:58:52 AM
No.519327938
10/20/2025, 2:58:52 AM
No.519327938
>>519324937
2nd law of thermodynamics; in a closed system energy reaches an equilibrium. All systems are enclosed in another up all the way to the observable universe. That is the limits of the universe for us mere mortals.
Basically, all the interesting things that can occur in the universe happen on the boundaries of high localised energy transforming to low dispersed energy. Without it you don't have gradients of potential energy. A way to think about it is gravitic potential kinetic energy. A ball at the top of a hill is at a high energy state localised at one point. Once nudged it will roll down the hill converting potential energy into kinetic, which is then dispersed through a variety of mediums (sound, heat, light, kinetic motion into objects like the air and dirt) and eventually the ball will come to a rest due to forces acting upon it such as friction, which disperses its energy in small amounts over the total area of the closed system. Thus, reaching equilibrium.
This applies to all things. All things came from dust, and to dust all things will return. To less than dust really. Not even subatomic particles like protons will last forever.
2nd law of thermodynamics; in a closed system energy reaches an equilibrium. All systems are enclosed in another up all the way to the observable universe. That is the limits of the universe for us mere mortals.
Basically, all the interesting things that can occur in the universe happen on the boundaries of high localised energy transforming to low dispersed energy. Without it you don't have gradients of potential energy. A way to think about it is gravitic potential kinetic energy. A ball at the top of a hill is at a high energy state localised at one point. Once nudged it will roll down the hill converting potential energy into kinetic, which is then dispersed through a variety of mediums (sound, heat, light, kinetic motion into objects like the air and dirt) and eventually the ball will come to a rest due to forces acting upon it such as friction, which disperses its energy in small amounts over the total area of the closed system. Thus, reaching equilibrium.
This applies to all things. All things came from dust, and to dust all things will return. To less than dust really. Not even subatomic particles like protons will last forever.