Final answer:
The volume of the object with a mass of 13.5g and a density of 6.6 g/cm³ is calculated to be approximately 2.0 cm³, thus option C is correct.
Step-by-step explanation:
When determining the volume of an object with known mass and density, the formula density = mass/volume plays a pivotal role. To ascertain the volume, the formula can be rearranged to read volume = mass/density.
Consider a scenario where the mass is 13.5 grams, and the density is 6.6 g/cm³.
By substituting these values into the formula, the volume calculation unfolds as follows: Volume = 13.5g / 6.6 g/cm³.
The result is 2.04545454545 cm³.
Precision dictates rounding to one decimal place, yielding an approximate volume of 2.0 cm³. This aligns with option C.
Thus, the derived volume serves as a crucial metric, providing insight into the spatial extent occupied by the object in question, and the meticulous calculation underscores the importance of understanding and applying fundamental principles of physics and material science in scientific inquiries.