A car has a velocity of 40.0 m/s and a mass of 2000.0 kg. A curve...

A car has a velocity of 40.0 m/s and a mass of 2000.0 kg. A curve...

A car has a velocity of 40.0 m/s and a mass of 2000.0 kg. A curve has a radius of 80.0 m. The curve has a bank angle of 30.0 degrees. The coefficient of friction between the tires and the road is 0.92. Would the car have enough Fc to make it around the curve?

→A cart with a mass fo 1.5 kg needs to complete a 1.5 meter radius loop...

→A cart with a mass fo 1.5 kg needs to complete a 1.5 meter radius loop the loop. What is the minimum velocity? a. 3.83 b. 12.2 c. 15.62 d. 14.7 e. 9.95 →A 30.0 N force is applied to the edge of a sphere that has a weight of 45.0 N and a radius of 40.0 cm. The sphere is at rest before the applied force. What will be the angular velocity of the sphere as a result of...

A 1000-kg car is traveling around a curve having a radius of 100 m that is...

A 1000-kg car is traveling around a curve having a radius of 100 m that is banked at an angle of 15.0°. If 30m/s is the maximum speed this car can make the curve without sliding, what is the coefficient of friction between the road and the tires?

A car merges onto the freeway on a banked curve. The car maintains a constant velocity...

A car merges onto the freeway on a banked curve. The car maintains a constant velocity 푣 while driving on the curve, which is banked at angle theta and has a radius of curvature R. The car has mass m and the coefficient of static friction between the car’s tires and the road is meu(s). What is the maximum and minimum speed that the car can go around the banked curve without slipping? Hint: The car tends to slip up...

A curve of radius 20 m is banked so that a 1100 kg car traveling at...

A curve of radius 20 m is banked so that a 1100 kg car traveling at 30 km/h can round it even if the road is so icy that the coefficient of static friction is approximately zero. The acceleration of gravity is 9.81 m/s 2 . Find the minimum speed at which a car can travel around this curve without skidding if the coefficient of static friction between the road and the tires is 0.3. Answer in units of m/s.

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 1840-kg car travels on a banked, horizontal curve of diameter 250 m. Find the maximum...

A 1840-kg car travels on a banked, horizontal curve of diameter 250 m. Find the maximum safe speed if the coefficient of friction between the tires and the road is 0.75 and the banking angle is 5.0 degrees. Additionally, what net force does the car experience in this case?

A curve of radius 20 m is banked so that a 1000 kg car traveling at...

A curve of radius 20 m is banked so that a 1000 kg car traveling at 60 km/h can round it even if the road is so icy that the coefficient of static friction is approximately zero. The acceleration of gravity is 9.81 m/s 2 . ? Find the minimum speed at which a car can travel around this curve without skidding if the coefficient of static friction between the road and the tires is 0.2. Answer in units of...

A curve of radius 30 m is banked so that a 950-kg car traveling at 25...

A curve of radius 30 m is banked so that a 950-kg car traveling at 25 miles per hour can round it even if the road is so icy that the coefficient of static friction is approximately zero. You are commissioned to tell the local police the range of speeds at which a car can travel around this curve without skidding. Neglect the effects of air drag and rolling friction. If the coefficient of static friction between the snowy road...

A curve at a racetrack has a radius of 600 m and is banked at an...

A curve at a racetrack has a radius of 600 m and is banked at an angle of 7.0 degrees. On a rainy day, the coefficient of friction between the cars' tires and the track is 0.50. Part A. What is the maximum speed at which a car could go around this curve without slipping? Give answer as vmax= and m/s