Nine different shapes (leaving aside orientations):
1 * 1 * 48
1 * 2 * 24
1 * 3 * 16
1 * 4 * 12
1 * 6 * 8
2 * 2 * 12
2 * 3 * 8
2 * 4 * 6
3 * 4 * 4
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Oh, dude, let me break it down for you. So, with 48 cubes, you can make like, a bunch of cuboids. Technically, there are 6 different ways you can arrange those cubes to form cuboids. But hey, who's counting, right?
To determine how many cuboids can be made with 48 cubes, we need to find all the possible combinations of dimensions that can form a cuboid. Each cuboid requires three different dimensions (length, width, and height). The factors of 48 are 1, 2, 3, 4, 6, 8, 12, 16, 24, and 48. Therefore, there are 10 different ways to arrange 48 cubes to form cuboids.
Well, honey, let me break it down for you. To make a cuboid, you need 3 pairs of equal sides. With 48 cubes, you can make 6 different cuboids: 1x1x48, 1x2x24, 1x3x16, 1x4x12, 2x2x12, and 2x3x8. So, there you have it, darling!
A cube has 8 vertices. 6 of them would be 48.
You can make five arrays from the number 48
Quite a few. You can generate as many as you want. Here is a generator: [ 48 times 'x' ]. Make 'x' any whole number - positive or negative - do the multiplication, and Shazam! You have a number divisible by 48.
To find the dimensions of a box that contains twice as many cubes as a 2x3x4 box, we first calculate the volume of the smaller box: 2 x 3 x 4 = 24 cubic units. Since the larger box contains twice as many cubes, its volume must be 2 x 24 = 48 cubic units. To determine the dimensions of the larger box, we need to find three numbers that multiply together to give 48. One possible set of dimensions could be 4 x 4 x 3, as 4 x 4 x 3 = 48 cubic units.
Exactly 48 times