polystyrene / styrofoam
plastic
wood / cork / ice
Objects whose density is lower than the density of the fluid they're in float. Objects whose density is higher than the density of the fluid they're in don't.
Objects whose aggregate density is less than the density of water float in it. Objects whose aggregate density is greater than the density of water sink in it.
all objects whose density is less than water's.
/;jadwhbas;pduGBD
Yes. Even objects whose density is greater then the fluid's.
Objects whose density is lower than the density of the fluid they're in float. Objects whose density is higher than the density of the fluid they're in don't.
Objects whose aggregate density is less than the density of water float in it. Objects whose aggregate density is greater than the density of water sink in it.
the objects whose density is more than that of fluid sink in the liquid
all objects whose density is less than water's.
/;jadwhbas;pduGBD
Yes. Even objects whose density is greater then the fluid's.
Density-dependent limiting factor: A limiting factor whose effects depend on the size of the population depend on population density. The less dense the population, the less severe the effect of the limiting factor. Examples: Predation and disease Density-independent limiting factor: A limiting factor that has the same effect on a population regardless of its population density. Examples: Natural disasters and climate
It is a mistake. Density cannot be measured in grams and any calculations whose answer leads to a density of 24g is incorrect.
You calculate density as mass / volume.
Density = 2.991 g/cm3
the density is 5.54g/cm3
density independent.