## Abubakar Tafawa Balewa University BME 465 Anatomical Direction & Axis Questions

Abubakar Tafawa Balewa University BME 465 Anatomical Direction & Axis Questions ORDER NOW FOR CUSTOMIZED AND ORIGINAL ESSAY PAPERS ON Abubakar Tafawa Balewa University BME 465 Anatomical Direction & Axis Questions hi how are you all you need on the filed if you need any thing just text me thanks BME 465 course attachment_1 BME 465 Homework 2 Please solve the following problems. You will need to submit a copy of your work as either a picture or a pdf. With any question that involves math (for the whole semester) please circle any final answers so I can easily find it. When using formulas, please write out the formula and then solve for the final variable. 1. Please give the anatomical direction that reflects the following statements: a. Above b. Below c. The front side d. The back side e. Further from the midline f. Closer to the midline g. Closer to the segment origin h. Further from the segment origin 2. About what axis do the following motions occur? a. Eversion b. Horizontal Abduction c. External rotation d. Flexion 3. In what plane do the following motions occur? a. Extension b. Adduction c. Internal Rotation d. Horizontal Abduction 4. You have a cylindrical material below and you apply a tensile force of 1000 N and have a final length of 36.5 cm. What is the average tensile stress and strain in this material? 1.36 cm 35 cm BME 465 Homework 2 5. You are testing a material and the following stress-strain curve is generated. The table gives the exact stress and strain values at each point labeled on the graph. Point Stress (MPa) Strain (mm/mm) O 0 0.0 A 75 0.005 B 115 0.010 C 129 0.026 a. What do the points A and C correspond to? b. Please calculate Youngs Modulus c. Please calculate the strain hardening modulus. Note that this is the slope of the plastic region prior to failure. d. Please write the expression (formula only, no need to solve) for strain in the (1) elastic region and (2) plastic region. 6. You are testing a cylindrical material with a diameter of 2 mm and an initial length of 6 mm. your testing yields the following data points (see Table). Point 3 corresponds to the end of the linearly elastic region and point 5 is failure. Data point Force (N) ?l (mm) 1 90 0.009 2 190 0.018 3 284 0.027 4 385 0.050 5 460 0.094 a. Please calculated the average tensile stress and strain at each point. b. Please draw an approximate stress-strain curve and label the yield point (Y), ultimate strength (U), and failure (F). You can use excel if you wish to graph this. If you do, please attach your image as a part of your submission. c. Please calculate Youngs Modulus  Get a 10 % discount on an order above \$ 100 Use the following coupon code : NURSING10