<span>The branched chain is more advantageous due to the increased availability of carbon ends to be hydrolyzed. The "branched" or many ended (more than two) polysaccharide molecule can liberate more free glucose for utilization than the linear polysaccharide chain with only two defined ends. All glucose molecules broken down for energy will continue to be hydrolyzed until it gets to the final monomer. If two polysaccharides with the same glucose molecules are side by side, the branched-chain structure will always be utilized faster than the linear structure.</span>
Https://www.nature.com/scitable/topicpage/the-information-in-dna-determines-cellular-function-652322...
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Basically, the P-P chain turns 4 protons into: 1 neutrino, 1 gamma ray, 1 positron, 1 helium nucleus.
A gamma ray = energy.
The chain converts hydrogen into helium and makes energy.
This is all occurring through fusion reactions where 2 protons basically smash into each other. But, it could also be e.g. a proton smashing with a deuterium nucleus. Or, other nuclei smashing together to make something else.
Hope this helps!
This question is incomplete. However, the answer to this question is Continental Drift. Approximately 300 million years ago, there were not separate continents, only one giant super continent that we call Pangaea. Over time, scientists realised that the Earth's outer shell slides over the inner mantle through plate tectonics. Around 200 million years ago, Pangaea began to break up through the process of continental drift. Gondwana, incorporating present-day <span>Africa, South America, Antarctica, India and Australia, split from Laurasia (Eurasia and North America). Approximately 150 million years ago, Gondwana started to break up into the present day continents</span>
Answer: The first answer is 3 and the second answer is c
Explanation:
