The Second Law of Thermodynamics
Matter tends to exist in its energy ground state. Both the nucleus and the electron cloud have energy states, representing different levels of excitation. The tendency is to return to ground or lowest state, and when that happens, a photon is emitted with charge representing the energy transition. When the photon comes from the nucleus, it is a gamma ray; when the photon comes from the electron cloud, it is an x-ray.
Sliding friction tends to convert kinetic energy into thermal energy, thermal energy being heat, kinetic energy being movement.
There is no way to save thermal energy in the long term; heat tends to escape. You can reduce the losses by some isolation measures, as those used in a thermos bottle.There is no way to save thermal energy in the long term; heat tends to escape. You can reduce the losses by some isolation measures, as those used in a thermos bottle.There is no way to save thermal energy in the long term; heat tends to escape. You can reduce the losses by some isolation measures, as those used in a thermos bottle.There is no way to save thermal energy in the long term; heat tends to escape. You can reduce the losses by some isolation measures, as those used in a thermos bottle.
It tends to lose rotational energy due to friction.
When an object is at a position above the ground, it has gravitational potential energy. This is so because of the force of gravity that tends to pull objects to the ground.
It tends to become negative ions, it has a high electronegativity and ionization energy. Also, it gains electrons.
No. It tends to decrease.
At lower energy, a system is more stable. At a higher energy, the system will have a tendency to achieve a lower energy. For example, a ball tends to roll down a slope, a compressed (or extended) spring tends to relax.At lower energy, a system is more stable. At a higher energy, the system will have a tendency to achieve a lower energy. For example, a ball tends to roll down a slope, a compressed (or extended) spring tends to relax.At lower energy, a system is more stable. At a higher energy, the system will have a tendency to achieve a lower energy. For example, a ball tends to roll down a slope, a compressed (or extended) spring tends to relax.At lower energy, a system is more stable. At a higher energy, the system will have a tendency to achieve a lower energy. For example, a ball tends to roll down a slope, a compressed (or extended) spring tends to relax.
Matter tends to exist in its energy ground state. Both the nucleus and the electron cloud have energy states, representing different levels of excitation. The tendency is to return to ground or lowest state, and when that happens, a photon is emitted with charge representing the energy transition. When the photon comes from the nucleus, it is a gamma ray; when the photon comes from the electron cloud, it is an x-ray.
Nonmetals
Sliding friction tends to convert kinetic energy into thermal energy, thermal energy being heat, kinetic energy being movement.
Sliding friction tends to convert kinetic energy into thermal energy, thermal energy being heat, kinetic energy being movement.
As we age our muscles tends to become more atrophy thus we become less flexible.
Essentially a carnivour.Instant energy requirement makes an animal essentially carnivour unlike the animals of higher body weight with dependance upon fiber diet tends to become herbivorous.
Madeness! it usually tends to become the things that annoy you most and make you become less of your self
In the words of bekey "As the sun spot activity increases, the Earth tends to warm up. Conversely as sun spot decreases the Earth tends to cool a bit."
The amount of energy in one section of the pyramid would always be less than the amount of energy in the section below it.