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

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?

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

When the brakes are applied, a car decelerates at 0.7 meters per second per second. Use antiderivatives to determine the stopping distance for a car traveling 100 km/hr. That is, how far does this car travel between the instant the brakes are applied and the instant it comes to a complete stop. Be careful with your units!

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

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...

A car traveling at 45 miles per hour is brought to a stop, at constant deceleration,...

A car traveling at 45 miles per hour is brought to a stop, at constant deceleration, 132 feet from where the brakes are applied. a) How far has the car moved when its speed has been reduced to 30 miles per hour? b) How far has the car moved when its speed has been reduced to 15 miles per hour? c) What is the car's rate of deceleration?

A car initially traveling at 25.7 m/s undergoes a constant negative acceleration of magnitude 1.50 m/s2...

A car initially traveling at 25.7 m/s undergoes a constant negative acceleration of magnitude 1.50 m/s2 after its brakes are applied. (a) How many revolutions does each tire make before the car comes to a stop, assuming the car does not skid and the tires have radii of 0.350 m? (b) What is the angular speed of the wheels when the car has traveled half the total distance?

A car initially traveling with a velocity if 12 m/s accelerates at a constant rate of...

A car initially traveling with a velocity if 12 m/s accelerates at a constant rate of 2.5 m/s^2 for 2 seconds. A) will this car cover more or less ground in 2 seconds than a second car initially moving at 12m/s but no acceleration ? B) how far is this car moving after 2seconds ? C) how far has it traveled during the 2 second interval ?

A train is traveling up a 2.78 ∘ incline at a speed of 4.31 m/s when...

A train is traveling up a 2.78 ∘ incline at a speed of 4.31 m/s when the last car breaks free and begins to coast without friction. A)How long does it take for the last car to come to rest momentarily? B) How far did the last car travel before momentarily coming to rest?

A car is traveling at 15 m/s on a horizontal road. The brakes are applied and...

A car is traveling at 15 m/s on a horizontal road. The brakes are applied and the car skids to a stop in 4.0 s. The coefficient of kinetic friction between the tires and road is: Select one: a. 0.38 b. 0.69 A ball is thrown straight up with a speed of 36.0 m/s. How long does it take to return to its starting point? Select one: a. 7.20 s b. 10.2 s c. 14.7 s d. 11.0 s e....