because of the muscles. constant activity promotes bones to be light and strength
One way that exists in nature is to take the path birds took. Their bones are hollow but supported internally with a lattice for strength.
no
to improve the strength of our bones and to keep us healthy. Like most minerals, if we don't have enough, we could get ill.
No, replacing ear ossicles with larger lightweight bones would likely disrupt the delicate mechanisms involved in sound transmission in the middle ear. The ossicles are specifically designed to amplify and transmit sound waves efficiently to the inner ear, and changing their size or weight could negatively impact hearing ability.
Could you use a carbon fibre composite?
The primary alloy used for lightweight aluminum applications such as aircraft and high-performance vehicles is 7075 aluminum alloy. It has excellent strength-to-weight ratio and good fatigue strength.
If the middle layer of your bones were heavy instead of light, it would likely affect the overall strength and density of your bones. You may experience increased risk of fractures due to the added weight in the middle layer, as it could compromise the structural integrity of your bones. This could also potentially impact your mobility and overall physical health.
Increasing the ratio of collagen to calcium in a bone would likely lead to decreased bone strength. Collagen provides flexibility and resilience to bones, while calcium provides hardness. An imbalance in this ratio could result in bones that are more prone to fractures and overall weaker in structure.
The Eiffel Tower's design was influenced by the structural efficiency of bones, particularly through the concept of using a lightweight but strong framework. Engineer Gustave Eiffel and his team studied the way bones distribute stress and load, leading to the tower's lattice structure that minimizes material while maximizing stability. This biomimicry approach allowed for a tall, enduring structure that could withstand wind and other forces. The combination of aesthetic appeal and engineering principles drew inspiration from nature, particularly from the strength found in biological forms.
Bones could be alive but they could be dead as well
bones can be strong and healthy !!!!!!!!!!
these are the bones that could develop in the soft tissue. for example bones (rider's bones) could develop in the aductor muscles of horse riders.