Well...all the importance.
every structural design, every safety factor, every hidrologycal analysis, every mechanical analysis, everything, even the materials used are based on statistics. The results gotten from the analysis are projected to other conditions, and the probability of them to interact together (for example, earthquake, wind and max load. Or having the highest flow and rain)
Civil engineering includes many disciplines including structural engineering, water resource management, waste water engineering and environmental engineering. In each of these disciplines, there is applications of statistics and probability theory. Some topics I have taken from a recent conference on probability and statistics in Civil Engineering (see link):- Loss estimation- Risk assessment and management- Hazard analysis- Probabilistic design- Risk-based optimal design- Maintenance and inspection- Concrete and wood structures- Bridges and special structures- Geoengineering- Earthquake engineering- Wind engineeringThe disciplines of both statistics and probability are important in Civil Engineering. Loss estimation and risk assessment are more in the area of probability modeling, however statistical analysis is necessary to ensure valid data is used in modeling.In addition to the above, air and water pollution analyses requires statistics.See related link.
what is the importance of statistics?
ai want to know the importance of statistics in nigeria
importance of computer system in the study of statistics
application of statistics in engineering field
importance of weathering in civil engineering
importance of statistics in electrical engineering
what the importance of studying in theorem Bernoulli in civil engineering
The importance of statistics in computer engineering is for ISO certifications and process verification. It is also used in keeping parameter within a controlled process.
importance of sedimentary rocks as applied to civil engineering
Civil engineering relies on engineering geology, and engineer geology is man's role in civil engineering. He provides information for civil engineering and his works, such as building roads, and so on, and provides information on the earth's bearing capacity.
remote sensing
Civil engineering includes many disciplines including structural engineering, water resource management, waste water engineering and environmental engineering. In each of these disciplines, there is applications of statistics and probability theory. Some topics I have taken from a recent conference on probability and statistics in Civil Engineering (see link):- Loss estimation- Risk assessment and management- Hazard analysis- Probabilistic design- Risk-based optimal design- Maintenance and inspection- Concrete and wood structures- Bridges and special structures- Geoengineering- Earthquake engineering- Wind engineeringThe disciplines of both statistics and probability are important in Civil Engineering. Loss estimation and risk assessment are more in the area of probability modeling, however statistical analysis is necessary to ensure valid data is used in modeling.In addition to the above, air and water pollution analyses requires statistics.See related link.
use as aggregate in concrete technology
because u can determine if the structure will be stable or not
ah question yantra pichana kodaka
It represents the strength against bending (but not exactly!)