Dodatkowe przykłady dopasowywane są do haseł w zautomatyzowany sposób - nie gwarantujemy ich poprawności.
Let us look at the ground state configuration of the system.
I call it the ground state of the resting mind.
In this case, we can think of the atom as having two ground states.
Lying beneath that, and rather close to each other in terms of energy, are two ground states.
Matter is in its ground state, and contains no thermal energy.
In all, half a century passed before the continuum returned to the ground state.
Throughout much of Nevada's political history it has been seen as a battle ground state.
However, the beryllium-8 ground state has almost exactly the energy of two alpha particles.
There's little doubt that these atoms spent most of their time in the ground state.
From this point on, any extra particle added will go into the ground state.
Let be concentration of active centers in the ground state.
In general, the atoms are excited to a level that is two or three levels above the ground state.
I think the states described here are *above* the ground state.
The kinetic energy of the ground state cannot be removed.
Its energy is above the ground state but below that of the other isomers.
This is because a system at zero temperature exists in its ground state.
If more than one ground state exists, they are said to be degenerate.
Hence, the energy of the ground state is 0.
The ground state of Ta has a half life of only 8 hours.
Most respond to the existing light field and decay back to their original ground state.
This was done for the ground state and for excited states.
Electrons are most stable at their lowest energy level, what is also called its ground state.
For the ground state using more than one reference configuration means a better correlation and so a lower energy.
It's like an excited electron, left to itself it drops back to its ground state.
The angular momentum in the true ground state is known to be zero.