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CAT scan (CT)
Cross-sectional Area (width x average depth) (m2). Google mannings equation for a more precise equation. Ian
It has to the with the ratio of cross-sectional area to volume. If an object expands in size while keeping the same proportions the ratio of its cross sectional area to its volume decreases. If we assume a constant density, then the ratio of cross sectional area to mass increases as well. For example, if we take a sphere and double its diameter, its volume will increase eight times while its cross-sectional area will only increase four times. The force an object experiences from wind is proportional to its cross-sectional area while the maximum force holding it in place is usually proportional to its mass.
slowest in the capillaries because the total cross-sectional area is the greatest
R is the electrical resistance,A is the cross-sectional area,l is the length of the piece of material.
advantage of cross sectional study?
You cannot create a cross sectional area of a rectangle. You can only create cross sectional areas for triangular shapes.
The surface gauge is useful when finding the center of a cross-sectional piece of a round section.
the larger the cross sectional area, the smaller the resistance
To calculate Cross Sectional Area: Width x Depth
The way I understand it is that the shear center is the point of a cross-section, where loads can be applied without causing torsion over the longitudinal axis (normal to the cross-sectional plane).
Yes, We can design a cross sectional study which its data collected in a retrospective format, so this study is called cross sectional retrospective study.
The cross sectional area of a slab can be found by squaring the height of the slab.
Cross Sectional Area = Width x Average Depth
Volume = cross sectional area * lengthArea = 2* cross sectional area + perimeter of cross section * length
Peter Ratiu has written: 'Cross-sectional atlas of the brain' -- subject(s): Anatomy & histology, Anatomy, Cross-Sectional, Atlases, Brain, Cross-sectional imaging, Methods
cross-sectional area = 0.5*(sum of parallel sides)*height