Answer:
A line graph is also used when there are two variables—but only makes sense when you're tracking changes over a continuous measurement (e.g., time, temperature, distance). Line graphs are especially useful for illustrating direction (i.e., peaks and dips) rather than magnitude.
Line graphs are used to track changes over short and long periods of time. When smaller changes exist, line graphs are better to use than bar graphs. Line graphs can also be used to compare changes over the same period of time for more than one group.
Answer: Separate the strands
Explanation:
<u>The function of DNA is to contain the hereditary genetic information of the cell,</u> by which proteins are synthesized and organisms develop. DNA is made up of monomers called nucleotides. They combine to form a polynucleotide, in this case DNA. Each nucleotide contains three main elements:
- Nitrogen bases: These are organic molecules containing carbon, nitrogen, oxygen and hydrogen. Four nitrogenous bases can be distinguished. These are adenine (A), guanine (G), cytosine (C) and thymine (T).
- Pentosa: It is a five-carbon sugar that in the case of DNA is known as deoxyribose.
- Phosphate groups: The phosphate in the DNA establishes bonds or "bridges" between the pentoses.
DNA strands run in opposite directions and this is known as antiparallel orientation. The nitrogenous bases of one strand bind to the bases of the opposite strand forming base pairs. The base pairs are established between adenine and thymine, or guanine and cytosine. This is known as the base complementarity rule. <u>According to the base sequence of one of the DNA strands (called the coding strand), a certain protein will be synthesized</u>. The complementary (non-coding) strand will then have the complementary bases. By separating the two chains, each one will have exactly half of the genetic information and also adequate information to know the proteins that can be synthesized.
Answer:
Xylem and phloem
Ur welcome <3
here's Jay Jay cuz why not 0w0
Hey there, Lillie.
The vitamin that helps vision and the development of body cells is..
Vitamin A.
Hope this helps! Have a good day.
Answer:
R=v^2/p
Explanation:
The Ohm's law is a relation between voltage, current and resistance:
If you dont know the current and know the power circulating in the circuit, you can use the relation between power, voltage and resistance:
R=v^2/p