Beverage Can Delivery System

1. Beverage Can Delivery System Group Members: Andrew Howard Garrett Karnowski

2. Overview • Introduction of team members • Device overview and purpose • Demonstration • Energy conversions and calculations • Conclusion

3. Group Members Garrett Karnowski Andrew Howard Personal Info Contributions

4. Device Overview and Purpose • Brainstorming • Materials Used • Construction • Basic Functions • What it does

5. Demonstration • Hopefully it works the first time!!!

6. Energy Conversions… • Six Energy Conversions • Motor Moving • Speed at the Loop • Drop to Trampoline • Projectile Motion • Center of Mass of the Bridge • Average Velocity of the Coke Cart

7. …and Calculations • Motor moving • Work = mgh • Work = (.002204)(32.2)(3.366) • Work=.2389 hp

8. Speed at the Loop • mgh = (1/2)mv^2 • (32.2)(1.5) = (1/2)v^2 • V = 4.9 ft/s^2

9. Drop to the Trampoline • Mgh = (1/2)mv^2 • (32.2)(1.75) = (1/2)v^2 • v = 5.3 ft/s

10. Projectile Motion • Y-y=(x-x)(tan0)-(g/2v^2)(1+tan0^2)(x-x)^2 • Y-0 = (1.75)(tan28.5)-(32.2/2*5.3^2)(1+tan28.5)(1.75)^2 • Y= 1.495 ft or 18 inches

11. Center of Mass of Bridge • CM = (m1r1 + m2r2)/ (m1 + m2) • CM = (1)(3) +(1)(3) / (1+1) • CM = 3 inches

12. Average Velocity of the Cart • V = d/t • V = 8 ft/ 2 seconds • V = 4 ft/s

13. Conclusion • Costs for parts • Devise performs as anticipated • Minimal problems • Reasonably consistent • Overall good experience