A passenger car being driven on a flat and straight section of a highway at a speed of 105 km/h reaches a curved section of the highway with a grade of 5% and a radius of 450 m. Determine (a) The additional force that will be required to maintain the original speed of 105 km/h (b) The percentage increase in the total force to maintain the original speed of 105 km/h Assume that the weight of the car is 907 kg, the cross-sectional area is 3.15 m?, and the car is being driven at sea level.
A passenger car being driven on a flat and straight section of a highway at a speed of 105 km/h reaches a curved section of the highway with a grade of 5% and a radius of 450 m. Determine (a) The additional force that will be required to maintain the original speed of 105 km/h (b) The percentage increase in the total force to maintain the original speed of 105 km/h Assume that the weight of the car is 907 kg, the cross-sectional area is 3.15 m?, and the car is being driven at sea level.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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The answer on the chegg is wrong so don't try to copy paste it?
Transcribed Image Text:3.7 A passenger car being driven on a flat and straight section of a highway at
a speed of 105 km/h reaches a curved section of the highway with a grade of
5% and a radius of 450 m.
Determine
(a) The additional force that will be required to maintain the original
speed of 105 km/h
(b) The percentage increase in the total force to maintain the original
speed of 105 km/h
Assume that the weight of the car is 907 kg, the cross-sectional area is 3.15 m,
and the car is being driven at sea level.
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