6. A circular curve of highway is designed for traffic traveling at 60 km/h (37 mi/H a) If the radius is 150 m (490 ft), what is the correct angle of banking of the road? levand b) If the road was not banked, what would be the minimum coefficient of static friction between the tires and the road to keep the cars from sliding using the speeds in part a)?
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- 3. For a banked turn, what is the bank angle required to enable a 600.0 kg sled to make a turn with a radius of 35 m at 50.0 km/h? 4. Find the optimal speed of a car on a banked turn with a bank angle of 10° and a radius of 30.0 m, so that that it completes the turn without using friction.1. A banked highway is designed for traffic moving at 100 km/h. The radius of the curve is 335 m. What is the angle of banking of the highway? 8= DNo calc. Please follow required steps
- 5. A 1900 kg car rounds a curve of radius 73.0 m banked at an angle of 15.0°. What is the magnitude of the friction force required for the car to travel at 86.0 km/h? N 20 www L MacBook Air 7 angle of 05 00 in 050 i 5 M F10 are of a3. A 1600-kg car moving on a flat, horizontal road negotiates a curve. If the radius of the curve is 40.0 m and the coefficient of static friction between the tires and dry pavement is 0.65. (a) Draw a free-body diagram for the car; (b) Calculate the maximum speed the car can have and still make the turn successfully.Calculate the maximum acceleration in m/S2 of a car with four wheel drive that heading up 13 deg slope ( one that makes any angle of 13deg with horizontal) under the following road conditions. Assume that the static coefficient of friction is involved that is, tires are not allowed to slip during the acceleration. A) on dry concrete B) on wet concrete c) on ice assume that Us= 0.100 the same as for shoes on ice.
- 2. A car making a turn on a banked highway ramp is experiencing friction. The coefficient of static friction between the tires and the road is 0.25. Determine the maximum speed at which the car can safely negotiate a turn of radius 2.7 x 102 m with a banking angle of 15.0°. Draw the necessary FBD.3. QUESTION 1 The car is and trying to make a tum off an expressway at 19.0 m/s. The turning radius of the level curve is 35.0 m. The car has a mass of 1240 kg. Determine a) the acceleration, b) net force ) minimum value of the coefficient of friction which is required to keep the car on the road. Attach File Browse My Computer tirowse Conternt Collecton Brow Dropbox11. A crate of eggs is located in the middle of the flatbed W of a pickup truck as the truck negotiates a curve in the flat road. The curve may be regarded as an arc of a circle of radius 35.0 m. If the coefficient of static fric- tion between crate and truck is 0.600, how fast can the truck be moving without the crate sliding?
- Q6/ A 3kg block stars from rest at the top of 30° incline and slides a distance of 2m down the incline in 1.5second. Find i) The acceleration of the block. ii) The friction force on the block. iii) The coefficient of kinetic friction between the block and the plane.27. A car resting on a level road acting on it: its weight (down) and the nor- mal force (up). Recall from Chapter 4 that the normal force is the support force, which is always perpendicular to the supporting sur- face. If the car makes a turn on a level road, the normal force is still straight up. Friction between the wheels and road is the only cen- tripetal force providing curved motion. Suppose the road is banked so the normal force has a component that provides cen- tripetal force as shown in the sketch. Do you think the road could be banked so that for a given speed and a given radius of curvature, a vehicle could make the turn without fric- tion? Explain. Normal WeightDear expert don't Use chat gpt