thermal enegy..... ha ha i knew this and you did'nt cuz your stupid
Entropy itself is not a form of energy, but rather a measure of disorder or randomness in a system. As systems become more disordered due to entropy, they tend to disperse their energy and become less able to do work. This dispersal of energy is often seen as a decrease in the potential energy available to do work within a system.
Entropy, according to the second law of thermodynamics. This increase in entropy represents the dissipation of energy into a less usable form during energy transformations.
Entropy increases when ever energy is used up. Energy cannot be destroyed, but it is always lost in the form of unusable energy. Entropy is the % of unusable energy compared to usable energy in a given system.
Entropy increases due to friction. Friction generates heat, which increases the overall disorder or randomness of the system, leading to an increase in entropy.
Because of the behavior of thermodynamics (entropy), it wastes some of the energy in the form of heat.
Entropy growing only happens in normal conditions but in extreme conditions such as a black hole, entropy will decrease. Entropy growing is caused by energy dissipation and entropy decrease is caused by energy being produced from the mass - energy transformation process in the extreme conditions. It is the energy dissipation process caused the mass be produced and the fundamental property of the mass --- gravity then will cause concentration process that end up in forming the extreme conditions in the black holes in the centre of galaxies that perform the mass - energy transformation in large scale that maintaining the life of the universe. All movement is derived from this fundamental movement of mass - energy transformation movement and this movement is a true non-friction movement that is self-causing, self-inducing, self-maintaining oscillating process that will last for ever. That is the way matter exists. Along with it is the everlasting entropy growing and entropy decreasing process.
When energy is transformed, entropy can either increase or decrease. For example, in many energy transformations, such as combustion or chemical reactions, entropy tends to increase due to the dispersal of energy. However, in some processes, such as certain phase changes, entropy can decrease.
Wasted energy will increase the amount of useless, or unusable, energy, and reduce the amount of usable energy in the Universe. The wasted energy is related to entropy - one way to express the Second Law of Thermodynamics is to say that there are irreversible processes (in terms of energy), another is that "entropy increases". However, entropy is not energy; it is not measured in Joule, but in Joule/Kelvin. In any case, you might say that when energy is wasted, entropy increases.Wasted energy will increase the amount of useless, or unusable, energy, and reduce the amount of usable energy in the Universe. The wasted energy is related to entropy - one way to express the Second Law of Thermodynamics is to say that there are irreversible processes (in terms of energy), another is that "entropy increases". However, entropy is not energy; it is not measured in Joule, but in Joule/Kelvin. In any case, you might say that when energy is wasted, entropy increases.Wasted energy will increase the amount of useless, or unusable, energy, and reduce the amount of usable energy in the Universe. The wasted energy is related to entropy - one way to express the Second Law of Thermodynamics is to say that there are irreversible processes (in terms of energy), another is that "entropy increases". However, entropy is not energy; it is not measured in Joule, but in Joule/Kelvin. In any case, you might say that when energy is wasted, entropy increases.Wasted energy will increase the amount of useless, or unusable, energy, and reduce the amount of usable energy in the Universe. The wasted energy is related to entropy - one way to express the Second Law of Thermodynamics is to say that there are irreversible processes (in terms of energy), another is that "entropy increases". However, entropy is not energy; it is not measured in Joule, but in Joule/Kelvin. In any case, you might say that when energy is wasted, entropy increases.
The form of energy produced from the motion of molecules within an object is called thermal energy.
Entropy is a measure of disorder or randomness in a system, while energy is the capacity to do work. The relationship between entropy and energy is that as energy is transferred or transformed in a system, the entropy of that system tends to increase. This is known as the second law of thermodynamics, which states that in any energy transfer or transformation, the total entropy of a closed system will always increase over time.
It is electricity, produced by the movement of electrons, that is a form of energy we use in homes.
Entropy, or disorder, typically increases whenever energy is transformed from one form to another. This is a reflection of the second law of thermodynamics, which states that in any energy transfer or transformation, some energy is lost as heat and the system becomes more disordered.