To find the density you need the mass and volume and then, density = mass/volume.
Given a ruler, you can easily measure an edge of the cube. If that is x units, then the volume is x3 cubic units.
However, it is not clear how you find a mass with just a balance. You need some standard weights, but these do not appear to be provided. You are stuck and cannot answer the question.
Scales to measure its mass and a ruler to measure the length of the cube's side.
You would need a balance to measure its mass. You would need a ruler to measure the length of its sides. Then you would need to calculate volume. Then divide the mass by the volume to get density.
no it is not 4 is a perfect cube
No, 148 is not a perfect cube.
No, 2 is neither a perfect square nor a perfect cube.
Scales to measure its mass and a ruler to measure the length of the cube's side.
You would need a balance to measure its mass. You would need a ruler to measure the length of its sides. Then you would need to calculate volume. Then divide the mass by the volume to get density.
The simplest procedure is find the mass of the cube using a simple balance. Preciously measure the size hence volume of the cube. Then Density=Mass/Volume and unit is gm/cc
no it is not 4 is a perfect cube
If by cube you mean perfect cube (a cube of an integer), then no, and the nearest perfect cube is 81.
No, 148 is not a perfect cube.
If the mass of the cube is 96 g, what is the density of the cube material?
No, 2 is neither a perfect square nor a perfect cube.
Because they are square/cube of an integer.
It is both because 1,000,000 is a perfect cube and a perfect square number
No. Each piece of the cube would have the same density.
A cube root of a perfect cube has only one dimension. A perfect cube is a number that can be obtained by multiplying an integer by itself three times. Taking the cube root of a perfect cube will give you the original integer value, effectively reducing the dimensionality back to one.