Imagine that a team of engineers wants to determine how a new car will perform on hills. The car has a mass of 1298 kg and its engine can develop a maximum power of 55.0 kW. Consider the situation in which the car goes up an incline with a constant speed of 49.4 km/h. In that case, what is the angle (in degrees) of maximum inclination of the inclined plane? Neglect work done by air resistance and friction and assume g=10.0 m/s2. a)18,0 b)12,4 c)4,92 d)1,37 e)1,97 f)25,4 g)20,1 h)14,9
Imagine that a team of engineers wants to determine how a new car will perform on hills. The car has a mass of 1298 kg and its engine can develop a maximum power of 55.0 kW. Consider the situation in which the car goes up an incline with a constant speed of 49.4 km/h. In that case, what is the angle (in degrees) of maximum inclination of the inclined plane? Neglect work done by air resistance and friction and assume g=10.0 m/s2. a)18,0 b)12,4 c)4,92 d)1,37 e)1,97 f)25,4 g)20,1 h)14,9
Principles of Physics: A Calculus-Based Text
5th Edition
ISBN:9781133104261
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter7: Conservation Of Energy
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Problem 41P: A loaded ore car has a mass of 950 kg and rolls on rails with negligible friction. It starts from...
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Imagine that a team of engineers wants to determine how a new car will perform on hills. The car has a mass of 1298 kg and its engine can develop a maximum power of 55.0 kW. Consider the situation in which the car goes up an incline with a constant speed of 49.4 km/h. In that case, what is the angle (in degrees) of maximum inclination of the inclined plane? Neglect work done by air resistance and friction and assume g=10.0 m/s2.
a)18,0
b)12,4
c)4,92
d)1,37
e)1,97
f)25,4
g)20,1
h)14,9
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