Can you please solve the last part the \"Post-Lab and the conclusion\" with clea
ID: 3516832 • Letter: C
Question
Can you please solve the last part the "Post-Lab and the conclusion" with clear handwriting
Thank you
Bone Mechanics Lab Introduction: In the Human Skeleton Lab, we observed the anatomy of some basic bones, the names, types, and location of certain bones in the body. In this lab activity, we will study the mechanics of these bones. The skeletal system performs is responsible for support, movement protection, storage of calcium, blood cell production, and endocrine regulation. For how light bone tissue is, it is an extremely strong tissue that is very interesting from an engineering standpoint. In this lab, students will practice observing a stress-strain curve and learn how these apply to bio-medical applications. Useful Equations: Stress (pascals) = Stress (pascals) = = = Force (N) Strain = AL = Change in Length -A Area (m²) Original Length Procedure: Complete the following exercises Research the following fractures and explain each: Fissure Only Are Outer langer bine is brs K-en Depression A depressed skall fructure is a break incararlid bone usim depression touord the brain. bones Snaps into two or more Pads Complete Transverse a fractuu at a right angle to tu bones axis Oblique a fructure in which hue breuk is at an anghe t. bones aki Spiral bore fruction ocurry when torm is ap pk ed alongin X? ?? 09, Comminuted a frac tune in udhich tu bone brat moats into Scoccal Pices Impaction one whose ends ont driven into cuek okay. this commonly asthana fractures inchildventis Sekretis kun as a bud Compression octurns when one or mort bones in tu Spiro Crumple W culenExplanation / Answer
Post lab
The bone tissue is viscous-elastic material whose mechanical properties are affected by deformation grade. The flexibility properties of bone are provided by collagen material of bone. It gives bone ability to support tense loads.
Level of activity can alter bone strength without overtly increasing the overall mass of skeleton. It dose this by strategically placing bone tissue where needed most. Aging and some bone diseases like osteoporosis surely affect bome strength it is no longer as good as before. Physical activity is major determinant, independant genotype which is capable on acting on mechanical properties of bone. Mechanical loading applied by excercise can result in increases in bone mass and strength. Reduces risk of falling in older populations. Mechanical properties with aging is major caused of feacture of bone in elder population.
Conclusion
The bone mechanism contributed here shows that importance of this area of study and brought brief discussions on bone tissue and its incorporation in the biomechanical aspects of human skeletal system.