The answer to your question is:
13 and -14
Answer:
9
Step-by-step explanation
First you multiply 3 five times, then you multiply 3 seven times and you divide the results of each multiplication
To solve this, we'll use Euler's Polyhedral formula.
This formula states that in any polyhedron, the number of vertices V, faces F, and edges E, satisfy:
If we solve for the edges E, we'll get:
Using the data given,
We get that the polyhedron would have 12 edges
Should be option B if I’m not wrong
Answer:
(n-6)/2 ≥ 2n-15
Step-by-step explanation:
(n-6)/2 ≥ 2n-15