composite!
Divide it into 2 pieces and work out the volume of each piece separately and then add the volumes together
A rectangle is a 2-dimensional figure. 2-d figures do not have volumes, which is a 3-dimensional concept.
To find the volume, first divide the shape into regular, simple shapes. Then use formulas to find the volumes of the smaller, regular shapes. Lastly, add up all the smaller areas to find the volume of the original shape. If you actually have the figure and you don't mind getting it wet then Archimedes can help. He cried out "eureka" when he realised that if he put the figure in a bucket that was already full to the brim, then the water that spilled out would have exactly the same volume as the figure. He collected the spilled water carefully and put it in a measuring flask. Then he knew the exact volume of the figure.
you cut it into regular solids then figure out those then add them together
The best way to find the volume of an irregular shape is to split it up into shapes that you know, find the volumes of those individual pieces, and then add up all of the volumes of the split pieces to get your total volume of the irregular shape.
You break up the composite figure into smaller shapes whose volumes you can work out, and them add them together.
It is the sum of the volumes of the constituent parts.
Take the dimensions and figure it out. Break the object into shapes that you know how to figure the volume of (rectilinear blocks, parallelipeds, tetrahedra, etc) an add the volumes together (don't forget that symmetry can help a lot so you do nto have to figure so many different pieces).
Divide it into 2 pieces and work out the volume of each piece separately and then add the volumes together
Volume is a noun.
A rectangle cannot have a volume. Only 3-dimensional objects (solids) can have volumes. A rectangle is a 2-dimensional object - or a plane figure.
The answer is: volumes
you put the shape into sections and find there volumes and add your answers together
A rectangle is a 2-dimensional figure. 2-d figures do not have volumes, which is a 3-dimensional concept.
There are 16 volumes. there is now 26 volume.
To find the volume, first divide the shape into regular, simple shapes. Then use formulas to find the volumes of the smaller, regular shapes. Lastly, add up all the smaller areas to find the volume of the original shape. If you actually have the figure and you don't mind getting it wet then Archimedes can help. He cried out "eureka" when he realised that if he put the figure in a bucket that was already full to the brim, then the water that spilled out would have exactly the same volume as the figure. He collected the spilled water carefully and put it in a measuring flask. Then he knew the exact volume of the figure.
You use pi to find volumes that include circles, as volume = area x depth, and the area of a circle always involves pi