A cylinder having a mass of 40 kg with the radius of 0.5 m is push to the right without rotation and with acceleration of 2 m/sec2. Determine the magnitude of the horizontal force P if the coefficient of friction is 0.30. * 40 kg a = 2 m/s ma 0.50 m h N O P = 183 N O P = 198 N O P = 200 N O P = 232 N
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- Both in ft/secTwo blocks are connected by a string as in the figure and the system is released from rest. The coefficient of kinetic friction between Block A and the table is 0.3. Ignore the air resistance and friction between the pulley and the string. Find the tension in the rope. 12 kg Pulley m, = 12 kg 0. 82.3 N O 117.6 N 76.44 N 58.8 NIn the sport of curling, players slide a 20.0 kg granite stone down a 38.0 m long ice rink. The coefficient of kinetic friction of the stone on ice is 0.0168. Calculate the initial speed of the stone, if it comes to rest after travelling 38.0 m, assuming that it travelled in a straight line and does not rotate while sliding. O 4.38 m/s O 6.02 m/s 3.58 m/s O 342 m/s
- In the Bohr model of the hydrogen atom, an electron moves in a circular path around a proton. The speed of the electron is approximately 2.15 106 m/s. (a) Find the force acting on the electron as it revolves in a circular orbit of radius 0.528 ✕ 10−10 m. magnitude N direction (b) Find the centripetal acceleration of the electron. magnitude m/s2 directionA car is rounding a tight curve on a winding road. If the radius of curvature of this curve is 10.0 m and the average coefficient of static friction between the road and normally inflated tires μs = 0.80, which of the following should be the posted maximum speed for a car to go around the curve for a dry day in the US, where we use mi/hr instead of km/hr? (1 mi = 1.6 km)M2 = 4 kg a m2 H = 0.1 %3D 20° 0 M1 = 10 kg What is the acceleration? What is the tension on the wire?
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- A block with some mass m is connected to a string that is attached to the ceiling. The block on the end of the string is going around a circular path with a constant radius r and constant speed. Applying Newton's second law to the x and y components of forces seperately in order to find the expressions for the tension of the string in terms of mass m, angle θ, and constant g.The uniform crate has a mass of 50 kg and rests on the cart having an inclined surface. Determine the smallest acceleration that will cause the crate either to tip or slip relative to the cart. What is the magnitude of this acceleration? The coefficient of static friction between the crate and the cart is μ = 0.5. , 15° 0.6 m 1 mThe figure below shows a Ferris wheel that rotates four times each minute. It carries each car around a circle of diameter 17.0 m. What force (magnitude and direction) does the seat exert on a 38.0-kg child when the rider is halfway between top and bottom? magnitude ______ N direction ____ ° measured inward from the vertical