1. BMET 313 Innovative Education--snaptutorial.com

2. BMET 313 Week 1 Homework For more classes visit www.snaptutorial.com Chapter 3, Problems 1–4; 14–18 (pp. 44–45); Chapter 4, Questions and problems 19–26 (p. 61); and Chapter 22, Questions 17–28 (p. 600–601).

3. BMET 313 Innovative Education--snaptutorial.com BMET 313 Week 1 iLab Getting Started with LabVIEW For more classes visit www.snaptutorial.com BMET 313 Week 1 iLab Getting Started with LabVIEW

4. BMET 313 Innovative Education--snaptutorial.com BMET 313 Week 2 iLab Design of an Instrumentation Amplifier For more classes visit www.snaptutorial.com BMET 313 Week 2 iLab Design of an Instrumentation Amplifier

5. BMET 313 Innovative Education--snaptutorial.com BMET 313 Week 2 iLab For more classes visit www.snaptutorial.com BMET 313 Week 2 iLab

6. BMET 313 Innovative Education--snaptutorial.com BMET 313 Week 3 iLab Bio-Signal Filtering, Coupling, and Conditioning For more classes visit www.snaptutorial.com BMET 313 Week 3 iLab Bio-Signal Filtering, Coupling, and Conditioning

7. BMET 313 Innovative Education--snaptutorial.com BMET 313 Week 4 iLab Biopotential Recordings For more classes visit www.snaptutorial.com BMET 313 Week 4 iLab Biopotential Recordings

8. BMET 313 Innovative Education--snaptutorial.com BMET 313 Week 5 Homework Assignment For more classes visit www.snaptutorial.com Week 5 Homework Chapter 9: Problems 3-17 odd

9. BMET 313 Innovative Education--snaptutorial.com BMET 313 Week 5 iLab Indirect Blood Pressure For more classes visit www.snaptutorial.com BMET 313 Week 5 iLab Indirect Blood Pressure

10. BMET 313 Innovative Education--snaptutorial.com BMET 313 Week 6 Homework Assignment For more classes visit www.snaptutorial.com BMET 313 Week 6 Homework Assignment.

11. BMET 313 Innovative Education--snaptutorial.com BMET 313 Week 6 Homework For more classes visit www.snaptutorial.com Questions: Chap 10: 2. Given 200mL of oxygen gas at 100̊C, calculate the volume at 0̊C if the pressure remains constant. 4. Calculate the IRV of a patient in whom the VC is 4130mL, TV is 480mL and the ERV is 1156mL. 6. Find the total lung capacity for a patient in whom the TV is 500mL, IRV is 2300mL, ERV is 1050mL and RV is 1200mL. 8. Find the output potential of a half-bridge circuit energized by a 500nA constant current source if the resting resistance is 30kΩ.

12. BMET 313 Innovative Education--snaptutorial.com BMET 313 Week 7 Homework Assignment For more classes visit www.snaptutorial.com Homework #7 Question 9). State the purpose, uses, operation, calibration, and maintenance for colorimeters (include a block diagram/schematic). 10). State the purpose, uses, operation, and maintenance for a flame photometer ( include a block diagram/schematic). 11). State the purpose, uses, operation, and maintenance for spectrophotometers (include block diagram/schematic).

13. BMET 313 Innovative Education--snaptutorial.com BMET 313 Week 7 HomeWork For more classes visit www.snaptutorial.com BMET 313 Week 7 HomeWork)

14. BMET 313 Innovative Education--snaptutorial.com BMET 313 Week 7 iLab For more classes visit www.snaptutorial.com BMET 313 Week 7 iLabs)

15. BMET 313 Innovative Education--snaptutorial.com BMET 313 Week 7 HomeWork For more classes visit www.snaptutorial.com Homework #7 Question 9). State the purpose, uses, operation, calibration, and maintenance for colorimeters (include a block diagram/schematic). 10). State the purpose, uses, operation, and maintenance for a flame photometer ( include a block diagram/schematic). 11). State the purpose, uses, operation, and maintenance for spectrophotometers (include block diagram/schematic).

16. BMET 313 Innovative Education--snaptutorial.com BMET 313 Week 7 iLab For more classes visit www.snaptutorial.com BMET 313 Week 7 iLab

17. BMET 313 Innovative Education--snaptutorial.com BMET 313 Week 7 iLab For more classes visit www.snaptutorial.com Part 1: Valsalva maneuver Follow the procedures below. Save all data and make notes on experimental observations and questions asked. Place some gel on your wrist and obtain a signal for arterial blood flow. Observe the signal. Perform a Valsalva maneuver, which is a forceful exhalation against a closed glottis. The increased pressure that develops within the thorax decreases venous return and increases heart rate.

18. BMET 313 Innovative Education--snaptutorial.com