Answer:
could you please elabortate on the question.
Explanation:
The two plots below show the heights of some sixth graders and some seventh graders:
Two dot plots are shown one below the other. The title for the top dot plot is Sixth Graders and the title for the bottom plot is Seventh Graders. Below the line for each dot plot is written Height followed by inches in parentheses. There are markings from 52 to 57 on the top line and the bottom line at intervals of one. For the top line there are 2 dots above the first mark, 1 dot above the second mark, 1 dot above the third mark and 2 dots above the fourth mark. For the bottom line, there is 1 dot above the second mark, 3 dots above the third mark, 1 dot above the fourth mark and 1 dot above the sixth mark.
The mean absolute deviation (MAD) for the first set of data is 1.2 and the MAD for the second set of data is 1.0. Approximately how many times the variability in the heights of the seventh graders is the variability in the heights of the sixth graders? (Round all values to the tenths place.)
1
1.2
2.4
3.0
heres the one i got can you help
What you can infer from this passage is that publication of "Ann Landers" ceased in 2002 (D).
Indeed, the text tells us that Esther Lederer, the legal author of "Ann Landers," died in 2002 without passing on the rights to her pen name—
which is also the name of her column—to anyone else ("she chose not to have another writer assume the pen name"). Since she did not allow any other writer to use the "Ann Landers" name, we can assume she didn't pass on the column's rights either.
Answer:
I think that doctors should be able to perform medical tests because they have studied harder than a lot of people and that they are also helping people every day with medical problems
Explanation:
Biomedical research is a difficult process, to say the least. The human body is the most complex machine yet encountered, consisting of trillions of cells, each containing billions of molecules, many of which are composed of tens of thousands of atoms. These molecular machines perform their designated tasks with incredible precision, working within a stunningly interdependent environment, from the level of molecules communicating with each other over minute distances right up to entire organ systems interacting with one another. Biomedical researchers need tools capable of mimicking this level of complexity. The past century or so has seen an explosion in the availability of investigative tools – cell cultures, non-invasive imaging, computer models – these are all powerful techniques in humanity’s arsenal in the war against disease and ignorance, but none of them fully replicates the intricacy of a living organism.
