The Answer is Quick energy.
Answer:
both the hydrophobic effect and van der Waals interactions.
Explanation:
Hydrophobic interactions refer to the interaction of non-polar groups with each other in the watery medium. Van der Waals interactions are the weak intermolecular forces formed when one molecule induces polarization in the other.
A DNA double helix has the base pair stacked on the top of one another. The adjacent base pairs are separated from each other by a distance of 3.4 angstroms. The atoms of each base pair for van der Waals interactions with each other since they are separated from each other by van der Waal contact distance.
Also, the hydrophobic surfaces of the bases make hydrophobic interactions with each other to stay away from the water. Therefore, Van der Waal interactions and hydrophobic effects both contribute to base stacking.
<h3><u>Answer;</u></h3>
A) Lymphatic capillaries to collecting vessels -Correct
B) Lymph nodes to lymph capillaries - Incorrect
C) Collecting vessels to lymphatic trunks- Correct
D) Collecting ducts to collecting vessels- Incorrect
E) Thoracic duct to cisterna chyli - Incorrect
F) Right sub-clavian trunk to thoracic duct - Incorrect
G) Intestinal trunk to right lymphatic duct - Incorrect
H) Left lumbar trunk to thoracic duct - Correct
I) Lower extremity lymph to thoracic duct - Correct
J) Right head lymph to thoracic duct - Incorrect
Next come organisms that eat the autotrophs; these organisms are called herbivores or primary consumers -- an example is a rabbit that eats grass. The next link in the chain is animals that eat herbivores - these are called secondary consumers -- an example is a snake that eat rabbits.
The answer is A a fixed molecular formula