bat
LL and Ll will both express the dominant gene, in this case short hair. Only an animal with both recessive genes (ll) will have long hair.
The animal you are describing is a bat. Bats are the only mammals capable of sustained flight, have hair, possess webbed fingers that form wings, and have teeth. They give birth to live young rather than laying eggs.
If the animal is a bird, then it has wings.
A Bat
Human hair can be distinguished from animal hair by examining the medulla, which is the central core of the hair. In human hair, the medulla is often absent or very thin, while in many animal hairs, it is typically wider and more pronounced. Additionally, the cuticle pattern and the overall thickness of the hair can provide further clues; human hair usually has a more uniform diameter and a different scale structure compared to animal hair.
the wings both flap they could be the same color they both make the animal fly.
both
you straighten it and then at the ends take hair gel and kind of make the ends go up and then its wings
Alleles for both the red hairs and white hairs are used. This is a typical pattern of the codominance
Buffalo wings are chicken wings. They're named after the city of origin - Buffalo - not the animal they're made from.
LL and Ll will both express the dominant gene, in this case short hair. Only an animal with both recessive genes (ll) will have long hair.
It is an Eagle.
A Dragonfly has 4 sets of wings
red
Because they can't fly. Not every animal was made to have wings and fly.
Hair and fur serve the same purpose: to keep the animal warm. They both refer to the same thing only hair usually refers to sparse/patches of hair rather than a thick coat of it. We as humans usually use the term "fur" to refer to the hair of an animal and use "hair" to describe our own, or hair/fur that is sparse. In the case of bulldogs the fact that they are animals would mean that we would refer to their hair as fur although both hair and fur are basically the same thing.
No