Question

The volume of Jupiter is about 1.43×1015
1.43
×
10
15
cubic kilometers. The volume of Earth is about 1.09×1012
1.09
×
10
12
cubic kilometers. The number of Earths that can fit inside Jupiter can be found by dividing Jupiter's volume by Earth's volume. Find this quotient and express the answer in scientific notation.

Answer 1

Answer:

The number of Earth that can be fit inside Jupiter is 1311

Step-by-step explanation:

Given as :

The volume of Jupiter = 1.43 × $10^{15}$  cubic km

The volume of Earth = 1.09 × $10^{12}$  cubic km

Let The number of Earth that can be fit inside Jupiter = n Earth

According to question

Number of Earth that can be fit inside Jupiter = $\dfrac{volume of Jupiter}{volume of Earth}$

Or, n = $\dfrac{1.43\times 10^{15}}{1.09\times 10^{12}}$

i.e n = 1.311 × 10³

So, The number of  Earth that can be fit inside Jupiter ≈ 1311

Hence, The number of Earth that can be fit inside Jupiter is 1311 . Answer