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The relationship between the amount of energy available for use and the amount of entropy in a food chain differs between trophic levels. Why would the amount of entropy increase from one trophic level to another in a food chain or energy pyramid? a. The available energy from one trophic level to another increases b. Energy is lost at each level as heat, which increases randomization c. The amount of biomass decreases from one trophic level to another d. The available energy at each level may either increase or decrease, creating randomization.

Respuesta :

The quantity of entropy in a food chain differs among trophic tiers the best choice is "B" strength is misplaced at every degree as heat, which will increase randomization.

The amount of entropy is the energy required for the movement from one trophic level to another and when strength is misplaced at every degree as heat, which will increase randomization then the amount of entropy increase from one trophic level to another in a food chain or energy pyramid.

What are the ten in line with the cent regulation of strength?

The 10% Rule shows that after strength is flowing in surroundings from one trophic level to the next, the best ten in line with cent of the strength could be exceeded. The trophic level is the placement of an organism in a food chain or strength pyramid.

Thus, strength is misplaced at every degree as heat, which will increase randomization.

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Answer:

b. Energy is lost at each level as heat, which increases randomization

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