8. The looseness or denseness of sandy soils can be expressed numerically by the so-called relative density, Dr and is defined by the following equations: Pary - Parymin | 100% Pary \Parymax - Párymin) emax Parymax D, 100% : emax — еmin emax = void ratio of the sandy soil in its loosest state or at parymax emin = void ratio of the sandy soil in its densest state or at parymin e = void ratio of the soil for the situation of interest or at pary With the aid of the above equations, compute for the dry unit weight, void ratio and relative density for a sample of mass 1830 g from the field having a volume Of 0.001 m?. The soil has a specific gravity of 2.60 and water content of 10%. Laboratory procedures establish a maximum void ratio of 0.62 and a minimum void ratio of 0.43.
8. The looseness or denseness of sandy soils can be expressed numerically by the so-called relative density, Dr and is defined by the following equations: Pary - Parymin | 100% Pary \Parymax - Párymin) emax Parymax D, 100% : emax — еmin emax = void ratio of the sandy soil in its loosest state or at parymax emin = void ratio of the sandy soil in its densest state or at parymin e = void ratio of the soil for the situation of interest or at pary With the aid of the above equations, compute for the dry unit weight, void ratio and relative density for a sample of mass 1830 g from the field having a volume Of 0.001 m?. The soil has a specific gravity of 2.60 and water content of 10%. Laboratory procedures establish a maximum void ratio of 0.62 and a minimum void ratio of 0.43.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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required= compute for the dry unit weight, void ratio and relative density
![8. The looseness or denseness of sandy soils can be expressed numerically by the so-called relative density, Dr and is defined by
the following equations:
Pary - Parymin
| 100%
Pary \Parymax - Párymin)
emax
Parymax
D,
100% :
emax — еmin
emax = void ratio of the sandy soil in its loosest state or at parymax
emin = void ratio of the sandy soil in its densest state or at parymin
e = void ratio of the soil for the situation of interest or at pary
With the aid of the above equations, compute for the dry unit weight, void ratio and relative density for a sample of mass 1830 g
from the field having a volume Of 0.001 m?. The soil has a specific gravity of 2.60 and water content of 10%. Laboratory
procedures establish a maximum void ratio of 0.62 and a minimum void ratio of 0.43.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fe66156cf-2024-4879-899b-d1fdd7c26cbe%2Fd3b94d33-fd2a-407c-9837-6dd647b48dac%2F8w217qa_processed.png&w=3840&q=75)
Transcribed Image Text:8. The looseness or denseness of sandy soils can be expressed numerically by the so-called relative density, Dr and is defined by
the following equations:
Pary - Parymin
| 100%
Pary \Parymax - Párymin)
emax
Parymax
D,
100% :
emax — еmin
emax = void ratio of the sandy soil in its loosest state or at parymax
emin = void ratio of the sandy soil in its densest state or at parymin
e = void ratio of the soil for the situation of interest or at pary
With the aid of the above equations, compute for the dry unit weight, void ratio and relative density for a sample of mass 1830 g
from the field having a volume Of 0.001 m?. The soil has a specific gravity of 2.60 and water content of 10%. Laboratory
procedures establish a maximum void ratio of 0.62 and a minimum void ratio of 0.43.
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