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The rolling resistance for steel on steel is quite low; the coefficient of rolling friction is typically μr = 0.002. Suppose a 180,000 kg locomotive is rolling at 10 m/s oust over 20 mph) on level rails. If the engineer disengages the engine, how much time will it take the locomotive to coast to a stop? How far will the locomotive move during this time?
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- A person whose weight is 520 N is being pulled up vertically by a rope from the bottom of a cave that is 35.1 deep. The tension in the rope is 569 N. How long, starting from rest, will it take to bring the person out of the ve?arrow_forwardTo withstand "g-forces" of up to 10 g's, caused by suddenly pulling out of a steep dive, fighter jet pilots train on a "human centrifuge." 10 g's is an acceleration of 98 m/s². If the length of the centrifuge arm is 15.0 m, at what speed is the rider moving when she experiences 10 g's? Express your answer with the appropriate units.arrow_forwardThe rolling resistance for steel on steel is quite low; the coefficient of rolling friction is typically μr=0.002. Suppose a 180,000 kg locomotive is rolling at 11 m/sm/s on level rails. How far will the locomotive move during this time? Express your answer with the appropriate units. change in x=?arrow_forward
- A car starts from rest and accelerates at a constant rate until it reaches 90 mi/hr in a distance of 220 ft, at which time the clutch is disengaged. The car then slows down to a velocity of 25 mi/hr in an additional distance of 420 ft with a deceleration which is proportional to its velocity. Find the time t for the car to travel the 640 ft.arrow_forwardAn elevator weighing 15kN starts from rest and acquires an upward velocity of 3m/sec in a distance of 6m. If the acceleration is constant, what is the tension in the cable?arrow_forwardHelparrow_forward
- The coefficient of sliding friction between the tires of a car and the road surface is u = 0.5. The driver brakes sharply and locks the wheels. If the velocity of the car before braking was to = 60 km/h, how much time will the car take to stop? What is the stopping distance?arrow_forwardVmax In a laboratory experiment, a sphere of diameter 8.0 mm is released from rest at t = 0 at the surface of honey in a jar, and the sphere's downward speed v when it travels in the honey is found to be given by v = Vmax (1 - e-t/T), where 0.040 m/s and T = 0.50 s. (a) Obtain an expression for a(t). (b) Draw graphs for v(t) and a(t) for the time interval 0 to 2.0 s. (c) Obtain an expression for x(t), choosing the positive x axis as downward, and draw the graph for this func- tion. (d) Use your x(t) graph to determine the time interval needed for the sphere to reach the bottom of the container if the surface of the honey is 0.10 m above the bottom of the jar. ... =arrow_forwardWith what speed (in mi/hr) must you drive your car across the crest of a hill of radius 37.1-m in order to feel weightless (1.00 m/s = 2.24 mi/hr)?arrow_forward
- A small block is released from rest at the top of a frictionless incline. The distance from the top of the incline to the bottom, measured along the incline, is 3.60 m. The vertical distance from the top of the incline to the bottom is 1.70 m. If g = 9.80 m/s2, what is the acceleration of the block as it slides down the incline?arrow_forward1.8 kg sits on top of a block with mass M = 5.6 kg which sits on a table. The coefficients of friction (both static A block with mass m= and kinetic) between all surfaces are u, = H = H=1 A string with negligible mass is connected to each mass and wraps halfway around a pulley with negligible mass, as shown in figure. What is the acceleration of the pulley, in m/s, at the instant the force, F= 92.63 N is applied on the pulley horizontally to the right as shown in figure? 9 = 10 m/s alınız) H = 1 F O 21.00 M O 25.20 O 700 O 4.90 O 1050arrow_forwardA mass is suspended from the ceiling in an elevator by a heavy rope. The mass is 80 kg and the mass of the rope is 2 kg. If the breaking strength of the rope is 1000 N, what is the maximum acceleration of the elevator such that the rope will not break?arrow_forward
- Principles of Physics: A Calculus-Based TextPhysicsISBN:9781133104261Author:Raymond A. Serway, John W. JewettPublisher:Cengage Learning