a 1,000kg car starts from rest thanks to the force of the engine. It reaches a...

The friction between the tires of a car and a flat road provides the centripetal force...

The friction between the tires of a car and a flat road provides the centripetal force for a turn. For a 1800 kg car travelling at 25 m/s on a curve of radius 100 m: a. Calculate the normal force on the car from the road. b. Calculate the centripetal force required to turn the car safely. c. Calculate the minimum coefficient of static friction between the tires and road for the car to turn safely. d. Ice on the...

A car rounds a 50 meter radius curve that is banked such that a car rounding...

A car rounds a 50 meter radius curve that is banked such that a car rounding it does not need friction at a speed of 12 m/s. What is the bank angle of the road? The coefficient of kinetic friction between the tires and the road is 0.5 and the coefficient of static friction between the tires and the road is 0.8. If the same road were flat (instead of banked), determine the maximum speed with which the coar could...

A car at the Indianapolis 500 accelerates uniformly from the pit area, going from rest to...

A car at the Indianapolis 500 accelerates uniformly from the pit area, going from rest to 330 km/h in a semicircular arc with a radius of 230 m A) Determine the tangential and radial acceleration of the car when it is halfway through the arc, assuming constant tangential acceleration. B) If the curve were flat, what would the coefficient of static friction would be necessary between the tires and the road to provide this acceleration with no slipping or skidding?

three 1500 kg cars are driving at 25m/s along the road. Car A is on a...

three 1500 kg cars are driving at 25m/s along the road. Car A is on a flat portion of the road, car B is at the bottom of a hill and car C is at the top of a hill. (a)Determine the normal force that the road exerts on each car. Suppose each car suddenly brakes hard and starts to skid. (b) Determine the magnitude and direction of each car's acceleration. The coefficient of kinetic friction between the tires and...

A 2000 kg car starts from rest. After 2 seconds, the car is moving at a...

A 2000 kg car starts from rest. After 2 seconds, the car is moving at a velocity of 9 m/s. There is a retarding friction force of 600N acting on the car. What is the power needed by the car in order to accelerate from rest to that final velocity?

A car starts from rest and accelerates over a 6-second period. Given the static coefficient between...

A car starts from rest and accelerates over a 6-second period. Given the static coefficient between the tyres and the road surface is 0.80. Assuming the weight of the car is equally shared between the front wheels and the rear wheels. Determine the theoretical maximum speed in km/h the car can achieve if (i) The car is four-wheel drive; and (ii) The car is front-wheel drive.

A car starts from rest at point A. The car reaches a speed of 15 m/s...

A car starts from rest at point A. The car reaches a speed of 15 m/s after 5.2 seconds. Then, the car slows down at a rate of 1.7 m/s2 covering 35 m during this time period (from point B to point C) (3 points)                         a. Find the distance covered from point A to point B.             b. Find the time from point B to point C.             c. Find the final speed at point C.

The coefficient of friction between a tire and dry asphalt is 0.7. For a car with...

The coefficient of friction between a tire and dry asphalt is 0.7. For a car with mass of 1700 kg and an initial speed of 31 mph: (A) Calculate the magnitude of the friction force on the car. Assume the road is flat (i.e. is not inclined at an angle). (B) Calculate the distance the car will slide when coming to rest. (C) Calculate the time the car will take to slide to rest. (D) If the speed of the...

The wheels on a car have a radius of 0.250 m. The car starts from rest...

The wheels on a car have a radius of 0.250 m. The car starts from rest and the driver accelerates the car at a constant rate and reaches a speed of 47.0 miles per hour in 7.0 s. a) Calculate the angular acceleration of the wheels of the car. b) The driver applies the brakes for 5.0 s which decelerates the car at a rate of 15.0 rad/s2. Calculate the total distance the car traveled during the entire 12.0 s...

A crate is placed on an incline. The 30 kg crate starts at rest and then...

A crate is placed on an incline. The 30 kg crate starts at rest and then slides 1.5 m along a 35˝ incline. The coefficient of kinetic friction between the crate and the incline is uk= 0.50. X is down the incline and Y is perpendicular to the incline. Determine the net force acting on the crate, including (Fg, Fn, and Fk). And what is the final speed of the box.