Question

Classify the soil on the basis of the size of the particles of the soil. In very long. I want very long​

Answer 1

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Soil particles vary greatly in size, and soil scientists classify soil particles into sand, silt, and clay.

Starting with the finest, clay particles are smaller than 0.002 mm in diameter. Some clay

particles are so small that ordinary microscopes do not show them. Silt particles are from 0.002

to 0.05 mm in diameter. Sand ranges from 0.05 to 2.0 mm. Particles larger than 2.0 mm are

called gravel or stones. Most soils contain a mixture of sand, silt and clay in different

proportions.  

The size of soil particles is important. The amount of open space between the particles

influences how easily water moves through a soil and how much water the soil will hold. Too

much clay, in proportion to silt and sand, causes a soil to take in water very slowly. Such a soil

gives up its water to plants slowly. These soils are sticky when wet.

Loam and silt loam refer to soils that have a favorable proportion of sand, silt, and clay. A silt

loam, for example, contains no more than 50% sand or more than 27% clay. The rest is silt.  

First Activity Description  

Have students collect some soil from their yards or from the school yard and fill a good sized jar

about 1/2 to 2/3 full with it. When they get back to school fill the rest of the jar with water,

replace the cover (tightly) and shake it vigorously.  

Put the jars on a table and have the students label theirs. Allow the jars to stand for a few days

until all the particles settle out. Then hold a card or heavy piece of paper against the side of the

jar and draw a diagram showing the different layers. Label each layer (clay, silt, sand). What

percentages of each layer did you find? Which soils do you think would be better for plant

growth? How do the Adirondack soils in your jar compare with the soils in the picture? Why is

there a difference?  

Size of soil particles is important for other reasons, too. It affects the ease of working the soil,

what crops can be grown, and the efficiency of certain fertilizers.  

Sandy soils that have no fine clay or silt particles filling the pore space cannot hold as much

moisture since there is no surface area for the water to cling to and the pores are so large that

the weight of the water causes much of it to run down and out of the soil. For this reason,

medium and coarse sandy soils, low in clay are known as droughty soils. Crops cannot live long

in them without very frequent rains.  

When fine soil particles fill the large pore spaces, the soil can hold more water for plants

because there is more surface area for water to cling to. And since the size of the pores is

reduced, the weight of the water is less and it does not run out of the soil so readily.

Second Activity Description:  

Have the students work in groups for this. Fill two cans with marbles and add sand to one can,

filling up the spaces between the marbles (tap the can gently on the table while doing this to be

sure all the pore spaces are filled). Now add a specific amount of water (50ml, 100ml, etc.) to

each can and let it percolate through the soil. Collect and measure the remaining water to

compare it with the original amount. Also, time them from when the first drop comes out of the

bottom of the can till the last comes out. Which soil held more water in it? Which took more

time to empty out? Which do you think would be better for plant growth?

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Answer 2

Soil particles vary greatly in size, and soil scientists classify soil particles into sand, silt, and clay. ... Silt particles are from 0.002 to 0.05 mm in diameter. Sand ranges from 0.05 to 2.0 mm. Particles larger than 2.0 mm are called gravel or stones.