Yes, they can. They can also have the same
surface area, but different
volume.
Well, honey, if the height is 4 cubes, that leaves you with 12 cubes to work with for the base. You can arrange those 12 cubes in various ways to form different rectangular prisms. So, technically speaking, there are multiple rectangular prisms you can create with 48 cubes and a height of 4 cubes.
I did not do step b, sorry!
There are lots of 3 dimensional shapes, like spheres, cubes, rectangular prisms, triangular prisms, pyramids, tetrahedrons, the list could go on forever.
A sphere. All other solids, including cubes, rectangular prisms, and cones all have at least one vertex.
It is an extension of Pythagoras's theorem to 3-dimensions. Diagonal2 = Length2 + Width2 + Height2
Yes, you can.
Given any rectangular prism, there are infinitely many other rectangular prisms with exactly the same surface area.
Given the surface area of a rectangular prism, there are infinitely many rectangular prisms possible.
Yes, they can. They can also have the same surface area, but different volume.
Cubes have a square on each side, but rectangular prisms have rectangles or squares.
Dimensions are linear measures whereas the volume is a cubic measure.
2 prisms
2lw + 2lh + 2wh
They are all rectangular prisms!
For the same base dimensions (base area) and the same height, the rectangular prism has more surface area.
Two different rectangular prisms can both have the same volume of 72 cm3
The volumes of prisms are calculated using the formula ( V = B \times h ), where ( V ) is the volume, ( B ) is the area of the base, and ( h ) is the height of the prism. This means that the volume is directly proportional to both the area of the base and the height. Different prisms with the same base area and height will have equal volumes, while variations in either dimension will result in different volumes. Thus, the relationship between the volumes of prisms depends on their base area and height.