# Skin regulates the body temperature by increasing " sweat production "
Answer:
The fork is drawn to emphasize its similarity to the bacterial replication fork depicted in Figure. Although both forks use the same basic components, the mammalian fork differs in at least two important respects.
First, it uses two different DNA polymerases on the lagging strand.
Second, the mammalian DNA primase is a subunit of one of the lagging-strand DNA polymerases, DNA polymerase α, while that of bacteria is associated with a DNA helicase in the primosome. The polymerase α (with its associated primase) begins chains with RNA, extends them with DNA, and then hands the chains over to the second polymerase (δ), which elongates them. It is not known why eucaryotic DNA replication requires two different polymerases on the lagging strand. The major mammalian DNA helicase seems to be based on a ring formed from six different Mcm proteins; this ring may move along the leading strand, rather than along the lagging-strand template shown here.
Reference: Molecular Biology of the Cell. 4th edition. Alberts B, Johnson A, Lewis J, et al. New York: Garland Science; 2002.
Animals that only survived in certain climates have fossils that are in the opposite of the range of temperatures needed for their survival. Also The plants have fossils in two different climate regions that indicates that the region was once in a different location. Such as the fossil of a plant called glossopteris. And deep scratches in rock found in South Africa that are usually created by the movement of glaciers.
They are educated guesses is not true. A theory must be supported by evidence. Also it is mixed up with the word hypothesis in which case you could say that is an educated guess. Not for scientific theory
Answer:
A. creep
D. slump
Freezing and thawing is rapid heating and cooling of the material due to change in weather conditions. Creep and slump are formed due to mass wasting or movement of particles down the slope. The slump is the downward movement of loose soil and rocks. The creep refers to movement of highly withered or loose material down the slope. Both slump and creep occurs due to the force of gravity. The materials in both creep and slump are displaced from their origin because of rapid heating and cooling or freezing and thawing.