Arm Homologous Structure. — homologous structures share a similar embryonic origin; Each, however, has a different function. after it was discovered that those flippers contained homologous structures to human legs and arms, they were moved to a part of the tree more closely related to humans. in other words, only organisms that are somehow related to each other can have homologous structures. Homology is the relationship between structures or dna derived from the most. Analogous organs have a similar function. Both sets of arms have a similar structure and use and chimpanzees and humans share a common ancestor. the arm of a human, the wing of a bird, and the pectoral fins of a whale are homologous structures in that all have similar patterns of bones, muscles, nerves, and blood vessels and similar embryonic origins; — homologous structures. — for example, the muscles that control the movement of a bat’s wings are homologous to those that move a human’s. For example, a chimpanzee’s arm and a human’s arm are homologous structures. Further genetic research has demonstrated that whales may be closely related to hippos.
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in other words, only organisms that are somehow related to each other can have homologous structures. — for example, the muscles that control the movement of a bat’s wings are homologous to those that move a human’s. Each, however, has a different function. — homologous structures. — homologous structures share a similar embryonic origin; Both sets of arms have a similar structure and use and chimpanzees and humans share a common ancestor. For example, a chimpanzee’s arm and a human’s arm are homologous structures. the arm of a human, the wing of a bird, and the pectoral fins of a whale are homologous structures in that all have similar patterns of bones, muscles, nerves, and blood vessels and similar embryonic origins; Further genetic research has demonstrated that whales may be closely related to hippos. after it was discovered that those flippers contained homologous structures to human legs and arms, they were moved to a part of the tree more closely related to humans.
Homologous Structure Image Game Smartz
Arm Homologous Structure the arm of a human, the wing of a bird, and the pectoral fins of a whale are homologous structures in that all have similar patterns of bones, muscles, nerves, and blood vessels and similar embryonic origins; Analogous organs have a similar function. Both sets of arms have a similar structure and use and chimpanzees and humans share a common ancestor. — homologous structures share a similar embryonic origin; — for example, the muscles that control the movement of a bat’s wings are homologous to those that move a human’s. Further genetic research has demonstrated that whales may be closely related to hippos. after it was discovered that those flippers contained homologous structures to human legs and arms, they were moved to a part of the tree more closely related to humans. For example, a chimpanzee’s arm and a human’s arm are homologous structures. the arm of a human, the wing of a bird, and the pectoral fins of a whale are homologous structures in that all have similar patterns of bones, muscles, nerves, and blood vessels and similar embryonic origins; — homologous structures. Each, however, has a different function. in other words, only organisms that are somehow related to each other can have homologous structures. Homology is the relationship between structures or dna derived from the most.
