Hyperosmotic
2
its bill Cosby
38 ATP molecules are produced in total (after 2 complete cycles)
Nine
5,000
ozone
The subscript outside the parentheses: (H2SO4)2
The great the density the higher the air pessure.
quite right. Air pressure is the result of millions of air molecules impinging on the surface per unit area. The higher the air pressure, the higher the number of strikes from air molecules.
As the atomic number increases so does the melting point, meaning the the molecules get stronger therefor you need a higher melting point to break the molecules.
Pressure is due to the number of molecules hitting you or your instrument. As you go up in altitude, there are less molecules hitting you, i.e., the pressure decreases. The higher you go, you are getting thinner atmosphere, which means there are less molecules available, so the pressure is lower. Air molecules are more abundant closer to the surface, and therefore the molecules are closer together, i.e. higher pressure.
Oxygen and nitrogen are in the same period of the table, and within a period, atomic radius decreases with increasing atomic number. Oxygen has a higher atomic number than nitrogen. From the periodic table alone, there is no direct information about the size of the molecules, but both these elements form diatomic molecules, and it is reasonable that molecules formed from the same number of atoms will have sizes in the same order as the sizes of the atoms.
Concentration increases the number of molecules to pass through, hence the result.
It is an outside condensing unit for a 4 ton split system a/c.
38around 29 to 30 ATP per glucose molecules realistically speaking. Some say higher but this is unlikely due to leaky membranes.
A molecules
3.00 moles x 6.02x10^23 molecules/mole = 1.81x10^24 molecules