It is either homologous structures or homozygous structures.
Embryological structures are when different species of animals look similar in the earliest stage of development and Analogous structures are when animals look different but their function is basically the same.
So just look up homologous structures and homozygous structures in your Bio book!!
The term is "vestigial structure." These structures are remnants from an organism's evolutionary history and no longer serve a function in the current organism. Examples include the human appendix or tailbone.
Analogous organs are structures in different species that have similar functions but different evolutionary origins. They have evolved independently to serve the same function in response to similar environmental pressures, rather than being inherited from a common ancestor. This is an example of convergent evolution.
homologous structures- same structure/different functions in common ancestors analogous structures-same functions/differnt structures not in common ancestors vestigial-show evolutionary history/structures that arent used anymore (i.e. human appendix/human tailbone)
When considering whether structures from two kinds are homologous, look for similarities in structure, function, and evolutionary history. Homologous structures are found in different species but have a common ancestor, so they may have different functions but share a common structural design due to shared ancestry. Evolutionary relationships, embryonic development, and genetic similarities can also provide evidence for homology.
An example of structures with different origin but same function is the wings of a bird and the wings of a butterfly. These structures have evolved independently in birds and insects to serve the same function of flying, but they have different origins in terms of their underlying anatomical structures and developmental pathways.
Homologous structures refer to structures on different species that are similar in function and their evolutionary origin. Analogous structures are similar in function but do not share a similarity in evolutionary origin.
1. HOMOLOGOUS ( morphological and anatomical evidences ) .These are the organs that have same basic structural plan and origin but different functions. 2. ANALOGOUS These are the organs that have different origin and structure plan but same function
Analogous structures are body parts that serve similar functions in different species but have different evolutionary origins. They arise from convergent evolution, where different species independently develop similar traits to adapt to similar environments or ecological niches. Examples include the wings of birds and insects, which serve the same purpose of flight but have different anatomical structures.
The term is "vestigial structure." These structures are remnants from an organism's evolutionary history and no longer serve a function in the current organism. Examples include the human appendix or tailbone.
Analogous organs are structures in different species that have similar functions but different evolutionary origins. They have evolved independently to serve the same function in response to similar environmental pressures, rather than being inherited from a common ancestor. This is an example of convergent evolution.
homologous structures- same structure/different functions in common ancestors analogous structures-same functions/differnt structures not in common ancestors vestigial-show evolutionary history/structures that arent used anymore (i.e. human appendix/human tailbone)
When considering whether structures from two kinds are homologous, look for similarities in structure, function, and evolutionary history. Homologous structures are found in different species but have a common ancestor, so they may have different functions but share a common structural design due to shared ancestry. Evolutionary relationships, embryonic development, and genetic similarities can also provide evidence for homology.
Homologous structures are structures that indicate a related evolutionary ancestry, not just similarity. For example, the flipper of a whale, the wing of a bird, and the arm of a a human are similar in their bone structure. Analogous structures are structures that are similar in appearance and function but are not the result of shared ancestry. For example, the wings of a birds and insects have the same function, but they do not reflect a shared ancestry.
An example of structures with different origin but same function is the wings of a bird and the wings of a butterfly. These structures have evolved independently in birds and insects to serve the same function of flying, but they have different origins in terms of their underlying anatomical structures and developmental pathways.
structures have different composition . they are made up of different thing every structure is different from other. function of structure depend upon its composition for example mitochondria is known as power house of the cell it provide energy to the cell and centriolles play different function for the cell because of its different composition
The form that matches the function of structures in living things is called morphology. Morphology refers to the study of the form and structure of organisms and how these characteristics are related to their function and evolutionary history. It helps us understand how the shapes and arrangements of different parts of an organism contribute to its overall biology and survival.
homologous structures is same structure,different function