A 1225 kgkg car approaches a curve on a highway that has a radius of 235...
A 1225 kgkg car approaches a curve on a highway that has a radius of 235 mm.
As the car rounds the curve at 32.5 m/sm/s , find the normal force
on the car due to the highway surface.
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A 1225 kgkg car approaches a curve on a highway that has a
radius of 235...
A 1225 kg car approaches a curve on a highway that has a radius of 235...
A 1225 kg car approaches a curve on a highway that has a radius of 235 mm. At what angle should the highway engineer bank this curve so that vehicles traveling at 32.5 m/sm/s can safely round it regardless of the condition of their tires?
A 1125 kg car approaches a curve on a highway that has a radius of 295...
A 1125 kg car approaches a curve on a highway that has a radius of 295 m. Part B As the car rounds the curve at 35.0 m/s , find the normal force on the car due to the highway surface. Express your answer with the appropriate units. uA ? ncar = Value IN Submit Request Answer
A flat (unbanked) curve on a highway has a radius of 240 m . A car...
A flat (unbanked) curve on a highway has a radius of 240 m . A car successfully rounds the curve at a speed of 37 m/s but is on the verge of skidding out. Part A If the coefficient of static friction between the car’s tires and the road surface were reduced by a factor of 2, with what maximum speed could the car round the curve? Express your answer in meters per second to two significant figures. part B...
A flat (unbanked) curve on a highway has a radius of 250 m
A flat (unbanked) curve on a highway has a radius of 250 m. A car successfully rounds the curve at a speed of 35 m/s but is on the verge of skidding out. a. Draw free body diagram of the car. b. If the coefficient of static friction between the car's tires and the road surface were reduced by a factor of 2, with what maximum speed could the car round the curve without slipping? c. Suppose the coefficient of friction were increased...
A 1035-kg car and a 2180-kg pickup truck approach a curve on the expressway that has a radius of 216 m.
A 1035-kg car and a 2180-kg pickup truck approach a curve on the expressway that has a radius of 216 m.Part A At what angle should the highway engineer bank this curve so that vehicles traveling at 69.4 mi/h can safely round it regardless of the condition of their tires? Part B Should the heavy truck go slower than the lighter car? Part C As the car and truck round the curve at 69.4 mi/h, find the normal force on the car to the highway...
A highway curve has a radius of 0.14 km and is unbanked. A car weighing 12...
A highway curve has a radius of 0.14 km and is unbanked. A car weighing 12 kN goes around the curve at a speed of 24 m/s without slipping. What is the magnitude of the horizontal force of the road on the car?
The angle is 15.11 degrees A 1295 Kg car a 2000 kg pickup truck approach a...
The angle is 15.11 degrees
A 1295 Kg car a 2000 kg pickup truck approach a curve on the expressway that has a radius of 292 m. As the car and truck around the curve at 62.2 mph, find the normal force on the car due to the highway surface. Express your answer to three significant figures. N_cat = A the car and truck round the curve at 62.2 mph, find the normal force on the truck due to the...
A car is driving around a flat highway curve that has a radius of 100 meters....
A car is driving around a flat highway curve that has a radius of 100 meters. The coefficient of friction between the wheels and pavement is 0.8. Please show work! A) Draw a force diagram for the car. What is the force responsible for the centripetal acceleration of the car? B) What is the fastest speed the car can drive around the curve?
A highway curve forms a section of a circle. A car goes around the curve as...
A highway curve forms a section of a circle. A car goes around the curve as shown in the helicopter view in the figure below. Its dashboard compass shows that the car is initially heading due east. After it travels d = 838 m, it is heading theta = 36.0 degree south of east. Find the radius of curvature of its path. Suggestion: Use s = r theta where theta is in radians. m
A highway curve of radius 68.0 m is banked at 21.4 degree so that a car...
A highway curve of radius 68.0 m is banked at 21.4 degree so that a car traveling at 26.4 m/s (95 km/hr) will utilize both banking and friction to keep it on the curve. Determine the minimum coefficient of static friction between the tires and the road to keep the car on the road at this speed on this curve.
A 1125 kg car approaches a curve on a highway that has a radius of 295 m. Part B As the car rounds the curve at 35.0 m/s , find the normal force on the car due to the highway surface. Express your answer with the appropriate units. uA ? ncar = Value IN Submit Request Answer
The angle is 15.11 degrees
A 1295 Kg car a 2000 kg pickup truck approach a curve on the expressway that has a radius of 292 m. As the car and truck around the curve at 62.2 mph, find the normal force on the car due to the highway surface. Express your answer to three significant figures. N_cat = A the car and truck round the curve at 62.2 mph, find the normal force on the truck due to the...
A highway curve forms a section of a circle. A car goes around the curve as shown in the helicopter view in the figure below. Its dashboard compass shows that the car is initially heading due east. After it travels d = 838 m, it is heading theta = 36.0 degree south of east. Find the radius of curvature of its path. Suggestion: Use s = r theta where theta is in radians. m
A highway curve of radius 68.0 m is banked at 21.4 degree so that a car traveling at 26.4 m/s (95 km/hr) will utilize both banking and friction to keep it on the curve. Determine the minimum coefficient of static friction between the tires and the road to keep the car on the road at this speed on this curve.
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