The driver of a car traveling on the highway suddenly slams on the brakes because of a slowdown in traffic ahead. If the car’s speed decreases at a constant rate from 68 mi/h to 40 mi/h in 3.0 s. The magnitude of acceleration is 3.4x104 mi/hr2. What distance does the car travel during the braking period? Express your answer in FEET.
Please show equation and work so I can learn the correct way to work this problem. Thanks
Initial velocity of car 
Final velocity of car 
Time taken is
Acceleration of car is
Using


Distance traveled by car during the braking period is
The driver of a car traveling on the highway suddenly slams on the brakes because of...
The driver of a car traveling on the highway suddenly slams on the brakes because of a slowdown in traffic ahead. A) If the car’s speed decreases at a constant rate from 74 mi/h to 50 mi/h in 3.0 s, what is the magnitude of its acceleration, assuming that it continues to move in a straight line? Answer is in mi/h^2 B) What distance does the car travel during the braking period? Answer is in ft
I am really confused with this
problem... I would really appreciate the help thanks!
The driver of a car traveling on the highway suddenly slams on the brakes because of a slowdown in traffic ahead Part A If the car's speed decreases at a constant rate from 76 mi/h to 50 mi/h in 3.0 s, what is the magnitude of its acceleration, assuming that it continues to move in a straight line? Express your answer in miles per hour squared...
If the truck hits the deer 2.60 seconds after the driver slams
on the brakes, what was the speed of the truck, in km/h, when the
deer was struck? Assume motion was at constant acceleration. Answer
will be 3 sig figs.
(Homework Assignment 1 (Chapter 2) Problem C2-04 Constants A truck is traveling at a constant speed of 56.3 km/h Suddenly, the driver sees a deer 23.6 m away and slams on the brakes
The driver of a car slams on the brakes when he sees a tree blocking the road. The car slows uniformly with acceleration of −5.40 m/s2 for 4.15 s, making straight skid marks 63.3 m long, all the way to the tree. With what speed (in m/s) does the car then strike the tree? m/s (b) What If? If the car has the same initial velocity, and if the driver slams on the brakes at the same distance from the...
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A truck is traveling at a constant speed of 56.6 km/h . Suddenly, the driver sees a deer 24.0 m away and slams on the brakes. If the truck hits the deer 2.40 s after the driver slams on the brakes, what was the speed of the truck, in km/h, when the deer was struck? Assume motion was at constant acceleration.
The driver of a car slams on the brakes when he sees a tree blocking the road. The car slows uniformly with acceleration of −5.00 m/s2 for 4.15 s, making straight skid marks 64.4 m long, all the way to the tree. With what speed (in m/s) does the car then strike the tree? i got 5.14 which is the the right answer but the second part im lost.. What If? If the car has the same initial velocity, and...
A car is traveling with a constant speed when the driver suddenly applies the brakes, giving the car a deceleration of 3.50m/s2. The car comes to a stop in a distance of 34.0 m. What was an initial speed of the car? How long (the time) did it take for this car to stop? What was the car's speed when it had traveled 17.0 m from the point where the brakes were applied? How long did it take for this...
The driver of a car slams on the brakes when he sees a tree blocking the road. The car slows uniformly with acceleration of -5.35 m/s2 for 4.00 s, making straight skid marks 61.5 m long, all the way to the tree. With what speed does the car then strike the tree?