The last bit of your question, YES these domestic animals have a huge ecological importance! Especially if you released them into the wild.
<span>When I first read the question, I wasn't so sure about this. I figured they would probably just wander around for a while, possibly a few months or years, and then die out little by little as they competed for food and fell to predators. </span>
<span>However, in the meantime they would likely eat everything, and then attract large numbers of predators, who would then have many babies. </span>
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C. Protons and electrons must be equal as protons have a + charge and electrons are - so they cancel out
Answer:
a. the pH within the thylakoid is less than that of the stroma
Explanation:
The pH of thylakoid membrane is 8 at normal conditions but it became highly acidic like 4 during photosynthesis. The electron transport chain utilize the energy released by excited electrons to pump the H+ ions to lumen of thylakoid membrane from stroma during light reaction of photosynthesis. The H+ ions are present in both the stroma and thylakoid membranes. These high potential H+ ions are utilized by ATP synthase complex for the production of ATP.
We know that more the H+ ions lesser will be the pH and lumen have the high concentration of H+ ions. While the pH of stroma is normally kept acidic by plants to create a concentration and potential difference of H+ ions for the production of ATP. That why the lumen have lower pH than stroma of chloroplast.
Answer:
Translation proceeds in three phases: Initiation: The ribosome assembles around the target mRNA. ... The ribosome then moves to the next mRNA codon to continue the process (translocation), creating an amino acid chain. Termination: When a stop codon is reached, the ribosome releases the polypeptide.
Explanation:
Brainliest please?
