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To find the distance traveled by the vehicle when the brakes are applied, we can use the equation of motion:

d=vi⋅t+12⋅a⋅t2d = v_i cdot t + frac{1}{2} cdot a cdot t^2

where dd is the distance traveled, viv_i is the initial velocity, aa is the retardation (negative acceleration), tt is the time.

Given: vi=25 m/sv_i = 25 , ext{m/s} (initial velocity) a=−0.5 m/s2a = -0.5 , ext{m/s}^2 (retardation) t=15 st = 15 , ext{s} (time)

Substituting these values into the equation, we have:

d=25 m/s⋅15 s+12⋅(−0.5 m/s2)⋅(15 s)2d = 25 , ext{m/s} cdot 15 , ext{s} + frac{1}{2} cdot (-0.5 , ext{m/s}^2) cdot (15 , ext{s})^2

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