Depending on what animal because animals are very different from one another, but that would mean you are considering humans not animals.
it makes absolutley no sense so why bother asking?
The embryos of different animals look similar because all organisms share the same ancient ancestor
the length of time they develope is the main difference.
The anatomy of fetal pigs and humans are similar in the layout of organs, specifically the digestive system.
Not all parent animals and their young look alike. Butterflies and deer are two animals that look different as adults than they do as young.
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!!
Related species have similar embryos.
When a single embryo in a mother's womb splits into two separate embryos early on in embryonic development, identical twins are created. Because the two twin embryos originate from the same single embryo, they will have extremely similar, if not identical, physical appearances and emotional actions when they are born. Identical twins are "identical' because they are created from the same original embryo during development inside the womb, not due to who their parents are.
All animals adapt to their living conditions, which causes them to mutate and therefore look different, even those of the same species
yes
I am currently in a biology class and we have been discussing this. Do not be fooled by your biology textbook, because it most likely has the wrong information in it. You will probably see a picture of a human embryo compared to embryos of several other animals, and they will all look extremely similar. Your textbook answer to this question should be that they are very similar in the earliest stages and then diversify as they develop (this shows evidence for common ancestry). However, this has been proven false. (I happened upon your question while searching for information to support that this has been proven.) I would provide links to evidence and such if I had found them, but my search has literally just started. Embryos are extremely different in the earliest stages. It is not until a later stage that they become similar. Therefore, this cannot provide evidence for common descent. So human embryos compared to other animal embryos goes like this: Very very different then Similar then Growing differences
Not all parent animals and their young look alike. Butterflies and deer are two animals that look different as adults than they do as young.
All vertebrate embryos look roughly the same, showing that they come from a common ancestor.
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!!
Related species have similar embryos.
To a trained eye they look different.
Animals that look odd and different from other animals.
similar to look the same but have a different size or measurement.
Through studying embryos, scientists have found that vertebrate animals seem to have a common design, even though their adult forms are different. Arm buds on different species, for example, look the same early on during embryonic development, yet they will develop into very different forms in the adult (a flipper, an arm, a wing, etc).
ways to look at similar outlook information in different formats and arrangements are called what?
The term for words from different languages that look similar and mean the same thing is "cognates."