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7. The sports car, having a mass of 1700 kg, travels horizontally along a 20° banked track which is circular and has a radius of curvature of p = 100 m. Determine the normal force of the car in Newton. * 19,140.60 O 19,410.60 O 19,104.06 O 19,401.60 8. Determine the maximum constant speed at which the car can travel without sliding up the slope of problem 7 neglect the size of the car. * 24.04 m/s O 24.40 m/s 23.50 m/s O 24.14 m/s

7. The sports car, having a mass of 1700 kg, travels horizontally along a 20° banked track which is circular and has a radius of curvature of p = 100 m. Determine the normal force of the car in Newton. * 19,140.60 O 19,410.60 O 19,104.06 O 19,401.60 8. Determine the maximum constant speed at which the car can travel without sliding up the slope of problem 7 neglect the size of the car. * 24.04 m/s O 24.40 m/s 23.50 m/s O 24.14 m/s

Elements Of Electromagnetics
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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7. The sports car, having a mass of 1700 kg, travels horizontally along a 20° banked track which is circular and has a radius of curvature of p = 100 m. Determine the normal force of the car in Newton. * 19,140.60 19,410.60 O 19,104.06 O 19,401.60 8. Determine the maximum constant speed at which the car can travel without sliding up the slope of problem 7 neglect the size of the car. * 24.04 m/s O 24.40 m/s O 23.50 m/s O 24.14 m/s
Transcribed Image Text:7. The sports car, having a mass of 1700 kg, travels horizontally along a 20° banked track which is circular and has a radius of curvature of p = 100 m. Determine the normal force of the car in Newton. * 19,140.60 19,410.60 O 19,104.06 O 19,401.60 8. Determine the maximum constant speed at which the car can travel without sliding up the slope of problem 7 neglect the size of the car. * 24.04 m/s O 24.40 m/s O 23.50 m/s O 24.14 m/s
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