its the same between an apple and a banana...they just don't compare
The exoskeleton is made of chitin, a polysaccharide.
The bodies of arthropods are supported by a hardened exoskeleton made of chitin, a substance produced by many non-arthropods as well. In arthropods, the nonliving exoskeleton is like a form-fitting suit of armor.
Presence of chitin on the outer surface of the insect body
An insect has primarily muscle attached to the exoskeleton. The muscles are made from some substance which is known as chitin.
Case or shell dependant on the insect other names may apply.
Chitin constitutes approximately 30-50% of the dry weight of an insect's exoskeleton. This polysaccharide provides structural support and rigidity to the exoskeleton, making it a crucial component for the insect's protection and overall integrity. The exact percentage can vary depending on the species and environmental factors.
An insect's external skeleton, also known as its exoskeleton, is primarily made of a tough protein called chitin. Chitin provides structure and support to the insect's body, much like a suit of armor. It also helps protect the insect from physical injury and provides a surface for muscle attachment.
When an insect sheds its outer skin, it's called molting.
No because they are an insect and insects don't have backbones.
Cell walls of fungi are similar to exoskeletons of insects because they are both made up of chitin. Chitin is made up of complex carbohydrates.
Mosquitoes, like all insects, have a chitinous exoskeleton. Their skeleton is in the form of an external shell made out of the protein chitin, rather than the internal framework of bone that vertebrates have.
Chitin is the polysaccharide that gives the insect's exoskeleton the resistance to bending resulting in breaking or cracking. It is also a prime compound and component found in the shells lobsters, crabs, and other shellfish.