You would expect to find nitrogen and oxygen as molecules in the atmosphere, and argon as individual atoms.
You would expect to find nitrogen (N2) and oxygen (O2) as diatomic molecules and argon as mono atoms.
ionic molecules
Towards the centre of the chromatogram. The smaller molecules are more mobile and appear towards the outside of the chromatogram.
Mostly from the fact that there is strong hydrogen bonding between the molecules. This, for instance, gives water much higher melting and boiling points than we'd otherwise expect for such small molecules.
Van der Waals forces are the weakest attractions between molecules.
Because as the water molecules get heated by the sun they start to move faster and faster until they escape from the liquid and become a gas (water vapour). On a cold day or a dau without sun, this process is slower becasue the molecules move slower and find it more difficult to escape from the liquid.
Argon, You would only expect to find the noble gases He, Ne, Ar, Kr, Xe, Rn as monatomic gases. All other gases have at least two atoms e.g O2, N2 some habve more e.g. CO2
ionic molecules
in any individual would you can expect to find the greatest incidence of osteoporosis
ionic molecules dissolve the most. but some polar covalent molecules also do dissolve in water.
The ground substance of the extracellular matrix.
its moslty like earths expect dried out with lots of iron and red
temperate zone
Mitochondria
it would move to where there is a higher concentration of sugar molecules
The highest partial pressure of arterial oxygen (PAO2) that one could expect to observe in an individual is around 100 mmHg when breathing room air at sea level. This value may vary depending on factors such as altitude, age, and overall health status of the individual.
ANSWER: nonpolar cavalent bonds and polar covalent bonds
cats