70%
10ml
it needs a bit of water (10ml)
10 ml of water weighs 10 grams
Soils with high clay content have smaller pore spaces which can limit the infiltration of water. This means that water is more likely to run off the surface rather than being absorbed into the soil. Clay soils also tend to form a crust when dry, further decreasing water absorption.
Soils with high clay content have smaller pores and low infiltration rates, making it harder for water to penetrate and be absorbed by the soil. This leads to an increase in surface runoff or water not being absorbed, especially during heavy rain events when the soil becomes saturated quickly.
This is because clay slowly absorbs water. It may take a few minutes+, but eventually it does happen. Since rain falls rather quickly, there is not much time for the clay to absorb the water floing on the ground, therefore there would be more runoff in places where the soil has a high clay content.
When not mixed with clay, about 0.02% (depending on the type of thorium compound)of ingested Thorium is absorbed into the body but since Thorium is strongly adsorbed by clay, the absorption of ingested Thorium mixed with clay soil is negligible, much less than 0.02%.
This is because clay slowly absorbs water. It may take a few minutes+, but eventually it does happen. Since rain falls rather quickly, there is not much time for the clay to absorb the water floing on the ground, therefore there would be more runoff in places where the soil has a high clay content.
That is 10ml
about a fiver for 10ml
I guess none. Why? The given is that the water is boiling -- it is turning into vapor.
Clay soils can absorb water, but do so only slowly because they are very fine grained, and the spaces between the grains are very small. This is in contrast to sandy soils where the spaces are big and water penetrates easily. During periods of heavy rain you can quickly get standing water on the surface of clay soils, which soon leads to run-off.