[填空题]
One possibility for a low-pollution automobile isf*iktjf 753 yh. :rj)3zj icfy for it to use energy stored inz y jy:ijt7*5ci. fhfrfj33k) cp-w yc5jqe3.- wotp5 a heavy rotating flywheel. Suppose such a car has a total mass of 1400 kg, uses a uniform cyli3w--t5 qpe.c wjcyp 5ondrical flywheel of diameter 1.50 m and mass 240 kg, and should be able to travel 350 km without needing a flywheel “spinup.” (a) Make reasonable assumptions (average frictional retarding force = 450N twenty acceleration periods from rest to equal uphill and downhill, and that energy can be put back into the flywheel as the car goes downhill), and show that the total energy needed to be stored in the flywheel is about $ 1.7\times10^{8 }$J. $ \times10^{ 8}$ J (b) What is the angular velocity of the flywheel when it has a full “energy charge”? $rad/s$ (c) About how long would it take a 150-hp motor to give the flywheel a full energy charge before a trip? $\approx$ min
Post time 2025-2-18 20:00:22
