reaction powered car
DESCRIPTION
Reaction Powered Car. Kenneth Huang. Hien Nguyen. Michael Phan. Reaction Chemistry . Vinegar + Baking Soda CH3COOH +H2O+ NaHCO3 2H2O +CO2(g)+NaCH3COO 2) Hydrochloric Acid + Calcium Carbonate 2HCl+CaCO3 CaCl2 + H2O + CO2 (g) 3) Hydrochloric Acid + Baking Soda - PowerPoint PPT PresentationTRANSCRIPT
Reaction Powered Car
Kenneth Huang
Michael Phan
Hien Nguyen
Reaction Chemistry 1) Vinegar + Baking Soda CH3COOH +H2O+ NaHCO3 2H2O +CO2(g)+NaCH3COO2) Hydrochloric Acid + Calcium Carbonate
2HCl+CaCO3 CaCl2 + H2O + CO2 (g)3) Hydrochloric Acid + Baking Soda
HCl + NaHCO3 NaCl + H2O + CO24) Sulfuric Acid + Baking Soda (FINAL)
H2SO4 + 2 NaHCO3 Na2SO4 + 2H2O+ 2CO2
Under 5 atm…moles of CO2 we need…
Mass of Baking soda we need (MAX)…
Volume of Sulfuric Acid we need…
1*1
42422
422 SOH mL 0040.0
SOH mol 17.8L 1
CO mol 2H mol 1
mol 145586.0 SO
CO
Soda Baking g 2.12NaHCO mol 1
g 84CO mol 2
NaHCO mol 2CO mol 145586.0
32
3
42422
422 SOH mL 0.0040
SOH mol 17.8L 1
CO mol 2SOH mol 1
CO mol 145586.0
Method of Producing Gas1) Use the kimwipe to wrap around baking soda and
dump into the propel bottle.2) Use the kimwipe to pour on the side of the propel
bottle.3) Attempting to trap the gas in a graduated cylinder in
water and placing that pressure in the bottle. Pressure would push the water out of the graduated
cylinder and no pressure is collected4) Use the aluminum foil as a funnel to pour on the side
of the propel bottle. The foil had smooth surface unlike the kimwipe, easier
to pour in.
Car Design
•Light•Simple•Rectangular shape•4 wheel car•Use the zip tie to tie the propel bottle to the cae
•Propel bottle is parallel to the ground•Put the tape around the cap to prevent carbon dioxide from leaking
Car Design (cont.)
Data: Pre-competition test runs
Trial # H2SO4 (mL)
H2O (mL)
Baking Soda (g)
Distance Traveled (ft.)
Distance from 25ft (in)
Comments
1 6 25 10.998 26 Finger on cap now
2 6 25 10.957 10 Some reacted on the side
3 6 35 11.078 17 It turned around
4 6 20 10.980 22.5 Fixed the car, removed parts
5 6 20 11.219 27.5
Data: Reaction Car Competition
Trial # H2SO4 (mL) H2O (mL) Baking Soda (g)
Distance Traveled (ft.)
Distance from 25ft (in)
Comments
1 6 20 10.6 14
2 6 20 11.5 17.9 -85
3 6 25 11.3 35.6 +127
4 6 25 10.7 21
5 6 25 10.5 25 0
6 6 25 10.7 31.4 +77
7 6 25 10.0 20.5 -54
8 6 25 10.5 23.75 -15 Too much, spewing
9 6 10 10.5 14
10 6 7 11.9 8.5
Plot: NaHCO3 vs Distance
9.5 10 10.5 11 11.5 12 12.505
10152025303540 Rxn Car Competition Plot
Baking Soda (g)
Dis
tanc
e (f
t)
Data: Car competition FINALS
Trial # H2SO4 (mL)
H2O (mL)
Baking Soda (g)
Distance Traveled (ft.)
Distance from 25ft (in)
Comments
1 6 20 10.1 -143 Kenneth didn’t unscrew cap all the way
2 6 20 10.1 0 -300 Kenneth pushed the car to the side
3 6 20 10.1 -5 Hien did this one
Conclusion•Our car did very well overall. We placed 2nd in our lab class in the Reaction Car Competition and placed 1st in the finals by getting the closest distance to 25 ft (+5 inches)•Our car did not completely spew like many other design, however the exhaust was not completely gaseous either. It has hard for Dr. Skip to judge the “spewness” of our car because we were right on the borderline between spew and no spew.•Multiple test runs allowed us to narrow down how much baking soda was needed to power the car to 25 feet•REDESIGN IDEAS: The one problem we had throughout the project was making the car go in a straight path consistently. Even during the final competition, we were still mingling with the car design to try and make it go in a straight path. If we were to redesign, our car would have bigger wheels and wider frame to provide more stability.