6
64 cubes,
10×10×10 = 1000cm3 Therefore 1000 cubes
There is no specific name.I hope you were not looking for volume as an answer because that is wrong. The fact that the cubes are of unspecified size means that there is no proper measure of anything. Also, if you tried to fill most 3-d figures with cubes, you would have corners and curves that were left out, and so the number of cubes could not measure volume even if their sizes were specified.There is no specific name.I hope you were not looking for volume as an answer because that is wrong. The fact that the cubes are of unspecified size means that there is no proper measure of anything. Also, if you tried to fill most 3-d figures with cubes, you would have corners and curves that were left out, and so the number of cubes could not measure volume even if their sizes were specified.There is no specific name.I hope you were not looking for volume as an answer because that is wrong. The fact that the cubes are of unspecified size means that there is no proper measure of anything. Also, if you tried to fill most 3-d figures with cubes, you would have corners and curves that were left out, and so the number of cubes could not measure volume even if their sizes were specified.There is no specific name.I hope you were not looking for volume as an answer because that is wrong. The fact that the cubes are of unspecified size means that there is no proper measure of anything. Also, if you tried to fill most 3-d figures with cubes, you would have corners and curves that were left out, and so the number of cubes could not measure volume even if their sizes were specified.
you do not, one is a unit of measure, the other is a shape.
For a rectangle, do the following:1. Count the number of cubes on one side of the retangle.2. Count the number of cubes on an adjacent side (not the opposite side)3. Multiple both numbers together. The result is your answer.
M3 volume
64 cubes,
area
10×10×10 = 1000cm3 Therefore 1000 cubes
Volume is the measure of the amount of space inside of a solid figure, like a cube, ball, cylinder, or pyramid. It's units are always "cubic", that is, the number of little element cubes that fit inside the figure.
There is no specific name.I hope you were not looking for volume as an answer because that is wrong. The fact that the cubes are of unspecified size means that there is no proper measure of anything. Also, if you tried to fill most 3-d figures with cubes, you would have corners and curves that were left out, and so the number of cubes could not measure volume even if their sizes were specified.There is no specific name.I hope you were not looking for volume as an answer because that is wrong. The fact that the cubes are of unspecified size means that there is no proper measure of anything. Also, if you tried to fill most 3-d figures with cubes, you would have corners and curves that were left out, and so the number of cubes could not measure volume even if their sizes were specified.There is no specific name.I hope you were not looking for volume as an answer because that is wrong. The fact that the cubes are of unspecified size means that there is no proper measure of anything. Also, if you tried to fill most 3-d figures with cubes, you would have corners and curves that were left out, and so the number of cubes could not measure volume even if their sizes were specified.There is no specific name.I hope you were not looking for volume as an answer because that is wrong. The fact that the cubes are of unspecified size means that there is no proper measure of anything. Also, if you tried to fill most 3-d figures with cubes, you would have corners and curves that were left out, and so the number of cubes could not measure volume even if their sizes were specified.
help
you do not, one is a unit of measure, the other is a shape.
For a rectangle, do the following:1. Count the number of cubes on one side of the retangle.2. Count the number of cubes on an adjacent side (not the opposite side)3. Multiple both numbers together. The result is your answer.
If you have got enough cubes, as many as you like.
12 cubes in total.
You cannot calculate standard deviation for objects such as concrete cubes - you can only calculate standard deviation for some measure - such as side length, surface area, volume, mass, alkalinity or some other measure.