A 150 lbm cartop carrier measures 51 in long by 35 in wide by 18 in high. If a 3000 lbm car is driven at 65 mph into a 10 mph headwind, the added net motor power required when the carrier is used is most nearly
a. 5.9 hp
b. 13 hp
c. 15 hp
d. 36 hp
Cd=1.18,
Fd=Cd*A*rou*v^2=1.18*(35/12)*(18/12)*0.075*((65+10)*5280/3600)^2/2/32.2=72.75lbf
Power=Fd*v=72.75*65*5280/3600/550=12.6 hp
Therefore, the answer should be b. However, the answer given in the book used the relative speed (65+10) for the v,
not the absolute speed, which I believe is incorrect.
If you redo and let the car stop, the headwind is still there that will give you nonzero power. That is a simple way to prove that the answer given in the book is incorrect.
Do I miss anything?
a. 5.9 hp
b. 13 hp
c. 15 hp
d. 36 hp
Cd=1.18,
Fd=Cd*A*rou*v^2=1.18*(35/12)*(18/12)*0.075*((65+10)*5280/3600)^2/2/32.2=72.75lbf
Power=Fd*v=72.75*65*5280/3600/550=12.6 hp
Therefore, the answer should be b. However, the answer given in the book used the relative speed (65+10) for the v,
not the absolute speed, which I believe is incorrect.
If you redo and let the car stop, the headwind is still there that will give you nonzero power. That is a simple way to prove that the answer given in the book is incorrect.
Do I miss anything?
