B equals the area of the base.
The volume of a cone is exactly equal to one third the volume of a cylinder of equal height and radius. The volume of a cylinder is equal to πr2h, so the volume of a cone is πr2h/3
Volume of a prism is equal to the cross-sectional area multiplied by the height.
It's equal to positive b squared, or (b x b) .
No.Neither are commutative: a - b does not equal b - a, and a/b does not equal b/a.Neither is associative: (a - b) - c does not equal a - (b - c), and (a/b)/c does not equal a/(b/c).Examples of these are:4 - 2 does not equal 2 - 4.1/3 does not equal 3/1.(6 - 5) - 1 does not equal 6 - (5 - 1).(10/2)/2 does not equal 10/(2/2).
NO. If you mix them in equal parts, that would give you 35 volume. To get 15 volume, mix equal parts of 10 and 20 volume.
No because if a=4 and b=4 then a=b and not a can equal 6 and not b can equal 5 so ~a is not = to ~b
A = B !A = !B So Not A = Not B
Gallon is a measure of volume, equal to 3.785 liters.Gallon is a measure of volume, equal to 3.785 liters.Gallon is a measure of volume, equal to 3.785 liters.Gallon is a measure of volume, equal to 3.785 liters.
the Answer is Sometimes
It depends on the volume of the box. The bigger the volume, the larger amount of water that will be displaced.
The volume of water an object displaces is equal to the volume of the object itself, as stated by Archimedes' principle. This principle explains that the volume of fluid displaced by an object immersed in a fluid is equal to the volume of the object.
If the dimensions of a cuboid are a, b and c, then its volume is a * b * c
The volume of a cone is exactly equal to one third the volume of a cylinder of equal height and radius. The volume of a cylinder is equal to πr2h, so the volume of a cone is πr2h/3
The volume of water equal to 38cm3 is 38ml. 1cm3 is equivalent to 1ml in volume.
Volume of a prism is equal to the cross-sectional area multiplied by the height.
the volume could be different that could lead to the same density. For example: d=m/v so you would have a mass of 10 for compound A and a mass of 5 for compound B, and the volume of compound A is 2 and the volume of compound B has a volume of 1. Therefore both densities equal 5.
It's equal to positive b squared, or (b x b) .