epidermal ridge
The epidermis does indeed provide mechanical strength to the skin. The epidermis also acts as a layer that protects the body.
The structures that represent this are the intermediate filaments.
The epidermis is the part of the skin that faces the outside or enviroment. The dermis is the layer just under the epidermis that contains hair follicles,nerves,blood and lymph vessels - the layer you get the sense of touch from. It is made of connective tissue. The function of the dermis is to be the major support structure for the epidermis. It contains the strength in its fibers and is considered to be the true skin. It also supplies the epidermis with blood and nutrients.
Charge
responsible
The starfish is an echinoderm with an endoskeleton of calcium carbonate "ossicles". These honeycombed plates form the dermal region with an overlying epidermis. Their function is to protect the underlying tissue and to give strength and structure to the star fish. They are the equivalent to the human skeleton, more or less.
The starfish is an echinoderm with an endoskeleton of calcium carbonate "ossicles". These honeycombed plates form the dermal region with an overlying epidermis. Their function is to protect the underlying tissue and to give strength and structure to the star fish. They are the equivalent to the human skeleton, more or less.
No
Strength isn't the only important thing when building a structure, flexibility is also regarded important since the structure will crumble in an earthquake. The Golden bridge in San Fransisco is a good example of a strong but flexible structure.
Keratin plays a crucial role in the epidermis, which is the outermost layer of the skin. The epidermis serves as a protective barrier, preventing the loss of moisture and protecting the body from external elements, such as microorganisms, chemicals, and physical trauma. Keratin is a fibrous protein that contributes to the structural integrity and protective functions of the epidermis in the following ways: **Formation of the Epidermal Barrier:** Keratinocytes, the primary cells of the epidermis, produce and accumulate keratin as they move from the deeper layers of the epidermis to the surface. As keratinocytes mature and fill with keratin, they become flattened and tightly packed, forming a tough and resilient barrier. **Waterproofing:** Keratin is hydrophobic, meaning it repels water. The accumulation of keratin in the outer layers of the epidermis helps to create a waterproof barrier, preventing excessive water loss from the body and minimizing the absorption of water from the external environment. **Protection from External Threats:** The tough, keratin-rich outer layer of the epidermis acts as a shield against harmful microorganisms, UV radiation, chemicals, and mechanical injuries. It helps to reduce the risk of infections, irritations, and damage to the underlying layers of the skin. **Resistance to Wear and Tear:** Keratin is highly resistant to mechanical stress and abrasion. It provides strength and durability to the skin, allowing it to withstand everyday wear and tear. **Hair and Nail Structure:** Apart from the epidermis, keratin is also a major component of hair and nails. In hair, keratin provides strength and elasticity, while in nails, it contributes to their hardness and protective function. In summary, keratin is essential for maintaining the integrity and protective properties of the epidermis. It helps create a strong, waterproof barrier that shields the body from external threats and maintains proper hydration and homeostasis. Additionally, keratin is a key structural component of hair and nails, contributing to their strength and resilience.
the moisture of concrete is main strength for reinforced concrete structure
cellulose