When the brakes are applied, a car decelerates at 0.7 meters per second per second. Use...

A car is traveling at 88 ft/s when the brakes are fully applied, producing a constant...

A car is traveling at 88 ft/s when the brakes are fully applied, producing a constant deceleration of 11 ft/s2. What is the distance covered before the car comes to a stop?

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

A car is traveling at the rate of 95 ft/sec when the brakes are applied. The...

A car is traveling at the rate of 95 ft/sec when the brakes are applied. The car begins decelerating at a constant rate of 20 ft/sec2. A. How many seconds elapse before the car stops? B. How far does the car travel during that time?

The coefficient of kinetic friction between rubber tires and wet pavement is 0.50. The brakes are...

The coefficient of kinetic friction between rubber tires and wet pavement is 0.50. The brakes are applied to a 1750kg car travelling 27.8m/s and the car skids to a stop. What is the size and direction of the force of friction that the road exerts on the car? What would be the size and direction of the acceleration on the car? How far would the car travel before stopping? If the tires of the car did not skid, the coefficient...

Two cars start from rest at a red stop light. When the light turns green, both...

Two cars start from rest at a red stop light. When the light turns green, both cars accelerate forward. The blue car accelerates uniformly at a rate of 3.3 m/s2 for 3.9 seconds. It then continues at a constant speed for 13.7 seconds, before applying the brakes such that the car’s speed decreases uniformly coming to rest 219.99 meters from where it started. The yellow car accelerates uniformly for the entire distance, finally catching the blue car just as the...

Two cars start from rest at a red stop light. When the light turns green, both...

Two cars start from rest at a red stop light. When the light turns green, both cars accelerate forward. The blue car accelerates uniformly at a rate of 5.1 m/s2 for 4.3 seconds. It then continues at a constant speed for 11.9 seconds, before applying the brakes such that the car’s speed decreases uniformly coming to rest 361.87 meters from where it started. The yellow car accelerates uniformly for the entire distance, finally catching the blue car just as the...

880 kilogram car traveling East at 15 meters per second collides with a 750 kg car...

880 kilogram car traveling East at 15 meters per second collides with a 750 kg car traveling north at 20 meters per second the cars stick together. in what direction does the wreckage move just after the Collision. please show all work so I can actually learn this. thanks.

When traveling 40 mph (miles per hour), the distance that it takes Fred’s car to stop...

When traveling 40 mph (miles per hour), the distance that it takes Fred’s car to stop varies evenly between 120 and 155 feet. (This includes the reaction distance and the braking distance.) All of the questions are related to the stopping distance when Fred is traveling 40 mph. a) Let S be the distance it takes for Fred’s car to stop at when traveling 40 mph. Find the distribution, parameter(s), and support of S. b) What is the probability that...

An automobile is traveling at v0 = 30 meters per second, when the driver applies the...

An automobile is traveling at v0 = 30 meters per second, when the driver applies the brakes, bringing it to rest in T = 8 seconds. The radius of its wheels is r = 40 cm. Assume that the deceleration is constant, and that the wheels do not slip on the road. Determine the deceleration −a of the automobile. Determine the distance D traveled by the auto during deceleration. Determine the number of revolutions N made by the wheel during...

To save fuel, some truck drivers try to maintain a constant speed when possible. A truck...

To save fuel, some truck drivers try to maintain a constant speed when possible. A truck traveling at 30.0 km/hr approaches a car stopped at the red light. When the truck is 123.4 meters from the car the light turns green and the car immediately begins to accelerate at 3.8 m/s2. How close does the truck come to the car assuming the truck does not slow down? Tries 0/8 How far from the stop light has the car travelled when...