It's possible that there is no pore space in a diamond stone, because its lattice density indicates that its atoms are more closely together than the atoms of any other known substance.
'Regular diamonds' are diamonds described without colour. 'Chocolate diamonds' are brown diamonds that include a description of the colour.
When the pore size is increased it allows more fluids and solutes to pass through which is why the filtration rate increases. This means that the pore size and the filtration rate are directly proportional.
Carbon Dioxide (CO2) and Oxygen (O2) can enter leaves through the pore.
Brown diamonds are not rare, but diamonds are rare.
Nothing. Only other diamonds can cut diamonds.
Sand doesn't have micro pore space, but only macro pore space.
pore space is important because animals and plants need it
rock
clay
It's possible that there is no pore space in a diamond stone, because its lattice density indicates that its atoms are more closely together than the atoms of any other known substance.
Porosity or pore space
Gabbro has little pore space. This is because of the interlocking crystals that make up the rock, allowing almost no water through it.
porosity
because because plants compete for it
pore space
Water fills up all the pore space in the sediments.
The smaller the grain, the less pore space there is to allow fluid movement. The larger the particle grains, the greater the movement due to the overall increase in pore space between particles.