Analysing the books in the series, we estimate that the reading level of The Last Campaign: The Near-Earth Mysteries, Book 2 is 5th and 6th grade.
Readability Test | Reading Level |
---|---|
Flesch Kincaid Scale | Grade 4 |
SMOG Index | Grade 8 |
Coleman Liau Index | Grade 6 |
Dale Chall Readability Score | Grade 5 |
The estimated word count of The Last Campaign: The Near-Earth Mysteries, Book 2 is 96,100 words.
A person reading at the average speed of 250 words/min, will finish the book in 6 hrs 25 mins. At a slower speed of 150 words/min, they will finish it in 10 hrs 41 mins. At a faster speed of 450 words/min, they will finish it in 3 hrs 34 mins.
The Last Campaign: The Near-Earth Mysteries, Book 2 - 96,100 words | ||
---|---|---|
Reading Speed | Time to Read | |
Slow | 150 words/min | 10 hrs 41 mins |
Average | 250 words/min | 6 hrs 25 mins |
Fast | 450 words/min | 3 hrs 34 mins |
for The Last Campaign: The Near-Earth Mysteries, Book 2
A colony on Mars becomes home to a killer conspiracy in a Near-Earth Mystery by the award-winning author of The Last Dance.Brazilian investigator Rosalia Morais, and her husband, revered American spacer Nicolau Aames, are building a life together in Mars’s Maxwell City, the fastest-growing settlement on the planet. Good news: there are no natural predators. Bad news: there are humans. That means the crime rate is growing, too.To ensure public safety, Rosie’s appointed by the mayor as the Red Planet’s first chief of police. No sooner does she build a law enforcement squad than the biggest challenge looks to be internal. Policing the police for graft and corruption is one thing. But when an industrialist is found among the chars of an arson, it’s murder.The fire leads to questions that can be answered by only one man—Nick’s former officer on the Earth-to-Mars vessel the Aldrin. And Nick is still duty bound to keep the officer’s secrets. As loyalties shift, trust breaks, and the tide of a political conspiracy rises, Rosie must solve a mystery that could doom the future of humanity on Mars.