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Not enough information has been given but the volume of a cone is 1/3*pi*radius squared *height and its base area is pi*radius squared
Notice the exponents in these two statements.Those little tiny numbers tell the whole big story:(the ratio of the surface areas of similar figures) = (the ratio of their linear dimensions)2(the ratio of the volumes of similar solids) = (the ratio of their linear dimensions)3
Of the 4 given volumes , 2 kL (kilolitres) is the greatest.In descending order, the volumes would be arranged as follows2 kL200 L2 L200 mL
Avogadro's law: the principle that equal volumes of all gases (given the same temperature and pressure) contain equal numbers of molecules
Because when working out volumes the answer is given in cubic units and the radius in the formula for finding the volume of a sphere is cubed: Volume of a sphere in cubic units = 4/3*pi*radius3
It is 27 : 343.
If the ratio is 2 : 7 then the volumes are in the ratio 8 : 343.
It is 8 : 343.
Not enough information has been given but the volume of a cone is 1/3*pi*radius squared *height and its base area is pi*radius squared
ratio of volumes is the cube of the ratio of lengths radii (lengths) in ratio 3 : 4 → volume in ratio 3³ : 4³ = 27 : 64
The ratio is 57 cubed. This answer does not depend on the fact that you are comparing two similar pyramids; it works the same for two cubes, two spheres, etc. - in general, for any two similar 3D objects.
Volume is normally used as a measurement in relation to other volumes, or as a sum or total amount. As relational measurements, volume might be in a form similar to a recipe, or it might be given as percentages.
274,625. The volume formula is lwh/3, so if the sides are 65x longer, the volume will be (65^3)x larger, or 274,625.
This question has no definitive answer because there are no volumes given.
Notice the exponents in these two statements.Those little tiny numbers tell the whole big story:(the ratio of the surface areas of similar figures) = (the ratio of their linear dimensions)2(the ratio of the volumes of similar solids) = (the ratio of their linear dimensions)3
You can measure it. Or you can calculate it. The details of the calculation depend on what information is given.
The advantages of spot heights is the height of the highest point in a given area expressed in feet or meters above sea level as marked on a topographical chart.