the driver of a car slams on the brakes causing the car to slow down at...

The driver of a car slams on the brakes when he sees a tree blocking the...

The driver of a car slams on the brakes when he sees a tree blocking the road. The car slows uniformly with acceleration of -5.10 m/s² for 4.25s, making skid marks 62.8 m long. With what speed does the car then strike the tree? The answer to this was 3.94 m/. From here, If the car has the same initial velocity, and if the driver slams on the brakes at the same distance from the tree, then what would the...

The driver of a 1600-kg jeep slams on the brakes, causing the jeep to slide to...

The driver of a 1600-kg jeep slams on the brakes, causing the jeep to slide to a stop 20 meters along an inclined roadway. The coefficient of friction between the tires and the surface of the road is 0.3, and the road is inclined at an angle of θ = 15o . (5 pts each) a. Using the above sketch, draw a complete FBD to indicate all forces acting on the jeep. Include coordinate axes. b. What is the magnitude...

A car traveling 57.8 km/h is 21.7 m from a barrier when the driver slams on...

A car traveling 57.8 km/h is 21.7 m from a barrier when the driver slams on the brakes. The car hits the barrier 2.22 s later. (a) What is the car's constant deceleration magnitude before impact? (b) How fast is the car traveling at impact?

A car traveling 54.8 km/h is 23.3 m from a barrier when the driver slams on...

A car traveling 54.8 km/h is 23.3 m from a barrier when the driver slams on the brakes. The car hits the barrier 1.84 s later. (a) What is the car's constant deceleration magnitude before impact? (b) How fast is the car traveling at impact?

A speeding car is going 72 mi/hr. The driver hits the brakes to slow the car...

A speeding car is going 72 mi/hr. The driver hits the brakes to slow the car down to the 55 mi/hr speed limit. The car has a mass of 2.0 metric tons. What is the magnitude of the impulse exerted by the brakes on the car?

A car of mass 772 kg is traveling 26.4 m/s when the driver applies the brakes,...

A car of mass 772 kg is traveling 26.4 m/s when the driver applies the brakes, which lock the wheels. The car skids for 4.47 s in the positive x-direction before coming to rest. HINT (a) What is the car's acceleration (in m/s2)? (Indicate the direction with the sign of your answer.) m/s2 (b) What magnitude force (in N) acted on the car during this time? N (c) How far (in m) did the car travel? m

A car of 1000 kg with good tires on a dry road can decelerate (slow down)...

A car of 1000 kg with good tires on a dry road can decelerate (slow down) at a steady rate of about 5.0 m/s2 when braking. If a car is initially traveling at 20 m/s (45 mi/h), (a) How much time does it take the car to stop? (b) What is its stopping distance? (c) What is the deacceleration? (d) How big is the net force to be applied to stop this car? (e) Calculate the work done by this...

the driver of a car that is travelling at 8.5 km/h slams the breaks and comes...

the driver of a car that is travelling at 8.5 km/h slams the breaks and comes to a complete stop in 1.69 sec. How far, in meters, does the car travel before stopping

Traveling at 40.2 m/s, a driver applies the brakes to his fast-moving car and skids out...

Traveling at 40.2 m/s, a driver applies the brakes to his fast-moving car and skids out of control on a wet concrete horizontal road. The 2000 kg car is headed directly toward a student waiting to catch a bus to campus who is standing 58.0 m down the road. Luckily, Superman is flying overhead and surveys the situation. Knowing that the coefficient of kinetic friction between rubber and rough wet concrete is .800, he determines that friction alone will not...

A 1,500 − ?? car is traveling at 100 ??/h. The driver sees a slow truck...

A 1,500 − ?? car is traveling at 100 ??/h. The driver sees a slow truck ahead and slows down to 60 ??/h. a. Find the initial and final energy of the car and the work done on it to slow it down. b. If the car completes its deceleration in 9.0 ?, find the mean braking power. c. A typical car can be made to stop from 100 ??/h in a minimum distance of 60 ? if the pavement...