HCM-6 At the design speed Vo Dan's car can go around a banked curve of radius 150M and banking angle of 10.0° without any friction force. The car is shown as viewed from behind in the figure below. R=150m 10.0° a) Use the figure above to draw the free body diagram for the car. Also show on the FBD the direction of the car's acceleration and show coordinate axis directions. b) Write down newtons's second law in component form for the car. Use NO numbers for this part. c) Use your equations from step b) to find the design speed Vo.
HCM-6 At the design speed Vo Dan's car can go around a banked curve of radius 150M and banking angle of 10.0° without any friction force. The car is shown as viewed from behind in the figure below. R=150m 10.0° a) Use the figure above to draw the free body diagram for the car. Also show on the FBD the direction of the car's acceleration and show coordinate axis directions. b) Write down newtons's second law in component form for the car. Use NO numbers for this part. c) Use your equations from step b) to find the design speed Vo.
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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Transcribed Image Text:HCM-6 At the design speed Vo Dan's car can go around a banked curve of radius 150M and banking angle
of 10.0° without any friction force. The car is shown as viewed from behind in the figure below.
R=150m
10.0°
a) Use the figure above to draw the free body diagram for the car. Also show on the FBD the direction
of the car's acceleration and show coordinate axis directions.
b) Write down newtons's second law in component form for the car. Use NO numbers for this part.
c) Use your equations from step b) to find the design speed Vo.
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