The correct answer is d: '<span>the protective coats of both groups are made of chitin'
Chitin is </span><span>a long-chain </span>polymer <span>derivative of </span>glucose, with a structural function in various groups of animals and plants, such as <span>of </span>cell walls<span> of </span>fungi<span>, </span>exoskeletons<span> of </span>arthropods <span>and the scales of </span>fish. It can be compared in function to keratin found in our hair and nails.
Answer:
One chromosome of the homologous pair has a sequence that results in hair and one chromosome has a sequence that results in no hair
One copy of the "H" allele on the homologous chromosome is enough to make the guinea pig have hair since both alleles are transcribed and translated
Only one of the chromosomes in the homologous pair carry the genetic sequence to make hair
Explanation:
Hairy is dominant over hairless. If there was a hairless guinea pig here instead, we would know its genotype. It would be hh. Remember any time a dominant allele is present it is expressed in the phenotype, so if the phenotype is not the dominant one, we know the genotype must contain two recessive alleles.
Answer:
I think its land is heated through radiant energy
Answer:
The air, water, and land where something lives
Explanation:
ATP has three phosphate groups that are attached to adenosine. The first phosphate group is attached to adenosine by a phosphoester bond. The second and third phosphate groups are attached to adenosine by different kind of bond known as phosphoanhydride bonds and all these are covalent bonds.
When phosphoanhydride bonds are broken, a greater amount of energy is released than when the phosphoester bond is broken. Therefore in energy production, it is the 2nd or 3rd phosphate group with the higher energy yielding bond that is "unhooked" from ATP to form ADP, yielding a high amount of free energy of at least 7.3 kcal/mol.