If the CO2 is in gas form and not in a container, they can move an unlimited distance apart.
Plants absorb carbon dioxide from the atmosphere.
In the alveoli
Yes. All atomic sized particles move, by vibrating. no matter how cold they are.
Carbon dioxide move in whereas oxygen and water vapour move out.
Gas particles, like the particles in all states of matter (solid, liquid, gas) are always moving apart and colloding with other particles. Gas particles have more space in between and tend to move faster than the particles in a solid or liquid state. Temperature only affects how fast a particle moves, therefore warm air makes gas particles move faster and cold air makes gas particles move slower.
When particles of a material move farther apart, it explodes.
To conduct electricity a substance needs charged particles free to move. Metals have metallic bonding, so they have delocalised electrons free to move. Graphite, a covalent network compound, also has delocalised electrons. Ionic compounds conduct when molten or in solution because the ions break free from the crystal lattice and can move. Since carbon dioxide is covalent molecular bonding, it has neither delocalised electrons or ions, and this lack of charged particles free to move means it does not conduct.
no because its online somewhere else
the volume of thr material becomes greater
because of the carbon dioxide in the dry ice because of the carbon dioxide in the dry ice because of the carbon dioxide in the dry ice
no because its online somewhere else
Plants absorb carbon dioxide from the atmosphere.
oxygen and carbon dioxide
In the alveoli
Yes. All atomic sized particles move, by vibrating. no matter how cold they are.
Of course; everything has energy. Dry ice is simply solid carbon dioxide. It has less energy that gaseous carbon dioxide, because the particles of a gas move about more freely than in a solid, but dry ice still has energy as long as it's above absolute zero.
Of course; everything has energy. Dry ice is simply solid carbon dioxide. It has less energy that gaseous carbon dioxide, because the particles of a gas move about more freely than in a solid, but dry ice still has energy as long as it's above absolute zero.