It depends on percentage related to WHAT! You cannot express surface area as a percentage of volume since the dimensions are different. So the only percentage you can have is the suface area of the smaller rock as a percentage of the surface area of the larger rock. In that case, the answer, not surprisingly, is that the smaller rock has the smaller percentage surface area.
It depends on percentage related to WHAT! You cannot express surface area as a percentage of volume since the dimensions are different. So the only percentage you can have is the suface area of the smaller rock as a percentage of the surface area of the larger rock. In that case, the answer, not surprisingly, is that the smaller rock has the smaller percentage surface area.
It depends on percentage related to WHAT! You cannot express surface area as a percentage of volume since the dimensions are different. So the only percentage you can have is the suface area of the smaller rock as a percentage of the surface area of the larger rock. In that case, the answer, not surprisingly, is that the smaller rock has the smaller percentage surface area.
It depends on percentage related to WHAT! You cannot express surface area as a percentage of volume since the dimensions are different. So the only percentage you can have is the suface area of the smaller rock as a percentage of the surface area of the larger rock. In that case, the answer, not surprisingly, is that the smaller rock has the smaller percentage surface area.
It depends on percentage related to WHAT! You cannot express surface area as a percentage of volume since the dimensions are different. So the only percentage you can have is the suface area of the smaller rock as a percentage of the surface area of the larger rock. In that case, the answer, not surprisingly, is that the smaller rock has the smaller percentage surface area.
No, that will indicate the percentage the smaller number is of the larger number.
no larger things can have higher volume
Because the contrast of the balls' size as opposed to the surface it bounces off of.
this concept states that mammals must expend a significant amount of energy to maintain a constant internal body temperature, animals with larger surface area to volume ratio(smaller mammals) must have higher metabolic rates because they must work harder to maintain that internal temperature. smaller surface area to volume ratio means more heat loss and thus, the more energy it must expend to maintain a constant body temperature. because smaller mammals have larger surface are to volume ratios, they must have higher metabolic rates because they must obtain and expend more energy to maintain the internal body temperature than larger mammals
That's because evaporation occurs at the surface.
If the smaller cells' total volume is at least that of the larger cell then the smaller cells have the greater surface area.
Subtract smaller from larger, divide answer by larger. (L-S)/L
The higher the res, the smaller the objects.
Well, this is not exact, but smaller atoms have about the same number (and mass) of neutrons and of protons. Heavier atoms have a larger percentage of their mass in neutrons.Well, this is not exact, but smaller atoms have about the same number (and mass) of neutrons and of protons. Heavier atoms have a larger percentage of their mass in neutrons.Well, this is not exact, but smaller atoms have about the same number (and mass) of neutrons and of protons. Heavier atoms have a larger percentage of their mass in neutrons.Well, this is not exact, but smaller atoms have about the same number (and mass) of neutrons and of protons. Heavier atoms have a larger percentage of their mass in neutrons.
Yes.
The smaller pulley spins the supercharger faster, thus creating greater boost and therefore more horsepower. Popular "sizes" are 15%, 17% and 19% reduction. The larger percentage reduction gives a greater boost. Some mechanics do not recommend the higher percentage pulleys.
It is the amount of surface of a solute that is exposed to the solvent. The smaller the pieces of the solute are, the larger the surface area that is exposed to the solvent.