The car passes through a dip in the road at A with a constant speed which gives its mass center G an acceleration equal 0.6g. If the radius of curvature of the road at A is 120 m, and if the distance from the road to the mass center G of the car is 0.6 m, determine the speed v of the car. 0.6 m
The car passes through a dip in the road at A with a constant speed which gives its mass center G an acceleration equal 0.6g. If the radius of curvature of the road at A is 120 m, and if the distance from the road to the mass center G of the car is 0.6 m, determine the speed v of the car. 0.6 m
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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Question
understand the remaing of the answers but why he done 120 - 0.6 = 119.4 m
why he subtracted 120 - 0.6 ( can you explain )to me why
Transcribed Image Text:Given :-
Accelaration of the cal.
Radius
The dis fan ce Gem the road to the mas cchlse l
a= 0.69
te usvatuse of Koad = 120m
u of
foom
the soad to the mas cehtse G
the cas
= 0.6m
To fiad-
Votacity of htieh. speed of
Solution
formula. Acceterafion
(speed)²
distanee
cwhere
8= 120- O.6
and o
put value of
= 119.4 m
0.6 9 19.4
la=D0.6g/
|3D
g= 9.01 m%
The speed of the car is
V.= 26.51 m/s
V= Vösx9.01 X 119.4 =585.657
Transcribed Image Text:The car passes through a dip in
the road at A with a constant speed which gives
its mass center G an acceleration equal 0.6g. If
the radius of curvature of the road at A is 120 m,
and if the distance from the road to the mass
center G of the car is 0.6 m, determine the speed
v of the car.
0.6 m
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