B. Herbivore
C. 1st carnivore
D. 2nd Carnivore
E. 3rd carnivore
Answer: C - 1 st carnivore
Explanation:
Answer:
Snake is a tertiary consumer, that is, a secondary carnivore
d. secondary carnivore
buffer
substrate
The right answer is the catalyst.
In chemistry, a catalyst is a substance that increases the rate of a chemical reaction; it participates in the reaction but it is neither part of the products nor reagents and therefore does not appear in the equation-balance of this reaction.
The catalyst accelerates, sometimes in considerable proportions, the chemical reaction, but it is not consumed: either it does not participate in the reaction but its presence facilitates the breakage of the bonds, or it participates but is regenerated at the end.
Catalysts are widely used in industry and laboratory.
In nature and in biochemistry, some proteins have catalytic activity. They are enzymes.
b. depressants
c. hallucinogens
The described side effects are commonly associated with depressants, a type of drug that slows down brain activity and is often used as a sedative or tranquilizer.
Drowsiness, paralysis, numbness, poor coordination, and reduced heart rate are common side effects of depressants. Depressants are a type of drug that slows down brain activity. They are often used as sedatives or tranquilizers to help with sleep problems or anxiety. There are several different kinds of depressants, including barbiturates and benzodiazepines. It's essential to note that these medications should be used only as directed by a healthcare professional, and misuse can lead to severe health problems or even death.
#SPJ12
B. lysosome
C. vacuole
D. cytoplasm
Answer: A. mitochondria
Explanation:
The Krebs cycle is the set of reactions that drives to the complete oxidation of glucose. This occurs in the matrix of eukaryote mitochondria and the prokaryotyc cytoplasm. The main reagents of the Krebs cycle are acetate in the form of acetyl-CoA, water, and electron carriers. The main reagents of the Krebs cycle are acetate in the form of acetyl-CoA, water, and electron carriers. Reactions are catalyzed by enzymes where decarboxylases stand out (decarboxylation catalysts) and dehydrogenases (oxidation-reduction catalysts) leading to the formation of NADH).