Answer:
component of acceleration are a = 3.37 m/s² and ar = 22.74 m/s²
magnitude of acceleration is 22.98 m/s²
Explanation:
given data
velocity = 10 m/s
initial time to = 0
distance s = 400 m
time t = 14 s
to find out
components and magnitude of acceleration after the car has travelled 200 m
solution
first we find the radius of circular track that is
we know distance S = 2πR
400 = 2πR
R = 63.66 m
and tangential acceleration is
S = ut + 0.5 ×at²
here u is initial speed and t is time and S is distance
400 = 10 × 14 + 0.5 ×a (14)²
a = 3.37 m/s²
and here tangential acceleration is constant
so velocity at distance 200 m
v² - u² = 2 a S
v² = 10² + 2 ( 3.37) 200
v = 38.05 m/s
so radial acceleration at distance 200 m
ar = [tex]\frac{v^2}{R}[/tex]
ar = [tex]\frac{38.05^2}{63.66}[/tex]
ar = 22.74 m/s²
so magnitude of total acceleration is
A = [tex]\sqrt{a^2 + ar^2}[/tex]
A = [tex]\sqrt{3.37^2 + 22.74^2}[/tex]
A = 22.98 m/s²
so magnitude of acceleration is 22.98 m/s²
