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physics114
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Correct?
1. Given Problem
A drag racer crosses the finish line doing 203mi/h and promptly deploys her drag chute (the small parachute used for braking).
(a)What force must the drag chute exert on the 878kg car to slow it to 45.2 mi/h in a distance of 199m?
(b)Describe strategy.
2. Formulas
F=ma
vf^2=vi^2+2aΔx
1mi=1609m
1hr=3600s
3. Attempted Solution
b) Strategy
First convert mi/hr units into m/s. Find acceleration by using vf^2=vi^2+2aΔx. Then use the acceleration found and finding Force using Newton's second law.
a) Calculations
Converted
203mi/hr = 90.279m/s
45.2mi/hr = 20.2019m/s
Plug into Motion Equation for Acceleration
(vf^2-vi^2)/(Δx) = 2a
[(90.279)^2 - (20.2019)^2] / [(199m)] = 2a
(408.117-8231.75) / (199m) = 2a
-39.3147 = 2a
a = -39.3127/2
a = -19.6574 m/s^2
Use Newton's Law
F=ma
F= (878kg)(-19.6574m/s^2)
F= -17259.2N
1. Given Problem
A drag racer crosses the finish line doing 203mi/h and promptly deploys her drag chute (the small parachute used for braking).
(a)What force must the drag chute exert on the 878kg car to slow it to 45.2 mi/h in a distance of 199m?
(b)Describe strategy.
2. Formulas
F=ma
vf^2=vi^2+2aΔx
1mi=1609m
1hr=3600s
3. Attempted Solution
b) Strategy
First convert mi/hr units into m/s. Find acceleration by using vf^2=vi^2+2aΔx. Then use the acceleration found and finding Force using Newton's second law.
a) Calculations
Converted
203mi/hr = 90.279m/s
45.2mi/hr = 20.2019m/s
Plug into Motion Equation for Acceleration
(vf^2-vi^2)/(Δx) = 2a
[(90.279)^2 - (20.2019)^2] / [(199m)] = 2a
(408.117-8231.75) / (199m) = 2a
-39.3147 = 2a
a = -39.3127/2
a = -19.6574 m/s^2
Use Newton's Law
F=ma
F= (878kg)(-19.6574m/s^2)
F= -17259.2N
