Answer:
saharan africa
Explanation:
. Roman roads are spread to northern Africa.
if the archeologist would go to sub Sahara Africa, he would be more likely to fijd the roads.
he could also go to Israel. the Roman's made a stone paved road and some people while traveling it dropped coins. if he were to look for the coins, he would find the road.
Answer:
It would be the cold front
Explanation:
The flask’s carrying capacity for rotifers in the absence of water fleas is;
4250 rotifiers.
<h3>Interpretation of Graph Curves</h3>
The graph is missing and so i have attached it.
From the graph, we see that;
The blue x indicates Flask X which has rotifiers alone without water fleas.
Meanwhile the red dot indicates rotifiers with water fleas.
From the question, we want to know the carrying capacity for rotifiers alone in the absence of water fleas.
From the graph, the curve for rotifers in the absence of water fleas is constant for around a capacity of 4250 rotifiers. Which means at this point it can't take anymore.
Thus, the flask’s carrying capacity for rotifers in the absence of water fleas is 4250 rotifiers.
Read more about interpretation of graphs at; brainly.com/question/14323743
Considering the p-value of 0.6, the decision is that we do not reject the null hypothesis.
<h3>What are the hypothesis tested?</h3>
At the null hypothesis, we test if the proportions are equal, that is:
At the alternative hypothesis, we test if they are different, that is:
<h3>What is the decision rule?</h3>
- If the p-value is greater than the significance level, we do not reject the null hypothesis.
- If the p-value is less than the significance level, we reject the null hypothesis.
In this problem, the significance level is of 0.1, while the p-value is of 0.6, hence the correct decision for the test is to not reject the null hypothesis.
More can be learned about p-values and hypothesis tests at brainly.com/question/16313918
Answer:
the answer is below. i hope this helps
Explanation:
The force, called the "Coriolis effect," causes the direction of winds and ocean currents to be deflected. In the Northern Hemisphere, wind and currents are deflected toward the right, in the Southern Hemisphere they are deflected to the left.