Less space than I expected.
Sand. The sand has space between all of the little grains, clay is stuck together with less space.
1 billion is less than 100 billion.
Sand has more pore space compared to rock. This is because sand particles are smaller and have less surface area than rock particles, allowing for greater pore space between the grains.
Yes, 10,000 is less than 180 billion.
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.
Yes, but less so than processed grains
anything negative - to one billion.
Millets are known as coarse grains that can be grown on less fertile and sandy soil.
It is equal to 1 billion, not more nor less.
Angular sediments have lower porosity compared to rounded sediments because angular grains have irregular shapes that leave less space between them. This results in a more compacted arrangement of grains, reducing the overall porosity of the sediment.
Permeability is inversely related to the size of sediment grains, meaning that as the grain size increases, permeability decreases. This is because smaller grains are packed more closely together, leaving less space for water and fluids to flow through, resulting in lower permeability. Conversely, larger grains have more space between them, allowing for greater permeability.
It is equal to exactly 1.12 billion: no more, no less.