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sturctural shape is how the top half of an egg looks strange but the shape puts equal amounts of weight at almostevery point in the structure in sort of a ring shape. therefor relating structural shape to strength. by cat
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How does structural shape contribute to structural strength?
sturctural shape is how the top half of an egg looks strange but the shape puts equal amounts of weight at almostevery point in the structure in sort of a ring shape. therefor relating structural shape to strength. by cat
Why is structural stregnth on wood important?
Structural strength in wood is important because it ensures that wood can bear loads and resist stresses without breaking or deforming. This is crucial for applications in construction and furniture, where wood must support weight and maintain its shape over time. Adequate structural strength also contributes to the overall durability and safety of wooden structures.
How does structural shapes contribute to structural strength?
sturctural shape is how the top half of an egg looks strange but the shape puts equal amounts of weight at almostevery point in the structure in sort of a ring shape. therefor relating structural shape to strength. by cat
What is the structural polysaccharide in bacteria?
Peptidoglycan is the structural polysaccharide found in bacterial cell walls. It provides rigidity and structural support to the cell, helping to maintain its shape and protect it from osmotic stress.
What is the stronger shape a circle or a triangle?
A circles structural shape is in fact stronger than a triangles structural geometric shape.
Proportion of collagen to hydroxyapatite in bones determines?
The proportion of collagen to hydroxyapatite in bones determines their flexibility and strength. Collagen provides flexibility and tensile strength, while hydroxyapatite contributes to the bones' hardness and compressive strength. This balance is critical for the overall structural integrity and function of bones.
What do plants use to give their bodies shape and strength?
Plants use a rigid cell wall made primarily of cellulose to give their bodies shape and strength. This cell wall provides structural support, allowing plants to maintain their upright position and resist external pressures. Additionally, turgor pressure, which results from water filling the plant's vacuoles, contributes to their overall firmness and stability. Together, these components enable plants to grow and thrive in various environments.
What is The supporting and structural substance of plants is provided by?
The supporting and structural substance of plants is provided by a material called cellulose, which is a complex carbohydrate found in the cell walls of plant cells. Cellulose gives plants their rigidity and strength, allowing them to maintain their shape and structure. Additionally, lignin, another substance found in the cell walls of plants, also contributes to the support and strength of plant tissues.
What polymer makes up our characteristic?
The characteristic polymer that makes up our skin is primarily collagen, a structural protein that provides strength and elasticity. Additionally, elastin is another important protein that contributes to the skin's ability to stretch and return to its original shape. Together, these proteins form a network that supports the skin's structure and function.
What is the plant's cell wall function?
1.It maintains the shape of the cell 2.It provides structural strength to the plant 3.It protects the plant cell from mechanical injury and from pathogens (bacteria, fungi) 4.It provides a path way for exchange of materials between two adjacent cells
Does the plasma membrane give strength to the cell?
Yes, the plasma membrane provides structural support and strength to the cell by maintaining its shape and protecting its contents. Additionally, the plasma membrane controls the movement of substances in and out of the cell, which is crucial for its proper functioning.
What are main proteins of the integumentary system?
The integumentary system's main proteins include keratin, collagen, and elastin. Keratin provides structural strength and waterproofing in hair, skin, and nails. Collagen offers tensile strength and support in the dermis, while elastin contributes to the skin's elasticity, allowing it to stretch and return to its original shape. Together, these proteins play crucial roles in maintaining the integrity and functionality of the skin and its appendages.
