A light string can support a stationary hanging load of 25.4 kg before breaking. An object...
A light string can support a stationary hanging load of 24.4 kg before breaking. An object of mass m = 3.19 kg attached to the string rotates on a frictionless, horizontal table in a circle of radius r = 0.777 m, and the other end of the string is held fixed as in the figure below. What range of speeds can the object have before the string breaks OSVS m/s m
A light string can support a stationary hanging load of 24.4 kg before breaking. An object of mass m = 2.93 kg attached to the string rotates on a frictionless, horizontal table in a circle of radius r = 0.819 m, and the other end of the string is held fixed as in the figure below. What range of speeds can the object have before the string breaks?
A light string can support a stationary hanging mass of 40 kg before breaking. Determine the maximum speed of a 5 kg object tied to one end of the string, while rotating in a circle of radius 0.8 m, on a horizontal frictionless table while the other end of the string is held fixed.
a light string can support a stationary hanging mass of 40kg before breaking. determine the maximum speed of a 5kg object tied to one end of a string, while rotating in a circle of radius 0.8m , on a horizontal friction less table while the other end of the string is held fixed.
A car initially traveling eastward turns north by traveling in a circular path at uniform speed as in Figure P6.10. The length of the arc ABC is 200 m, and the car completes the turn in 40.0 s. Figure P6.10 (a) What is the acceleration when the car is at B located at an angle of 35.0°? Express your answer in terms of the unit vectors i and j (b) Determine the car's average speed (c) Determine its average acceleration...
A car initially traveling eastward tuns north hy traveling in a circular path at unitorm speed as in Figure P6.10. The length of the arc ABC is 270 m, and the car completes the turn in 36.0 (a) What is the acceleration when the car is at B located at an angle of 35.0° (b) Determine the car's average speed. (c) Determine its average acceleration during the 36.0 s interval. Express your answer in terms of the unit vectors i...
Two objects with masses of 2.45 kg and 4.15 kg are connected by a light string that passes over a light frictionless pulley to form an Atwood machine, as in Figure 5.14a. Figure 5.14a (a) Determine the tension in the string. Incorrect: Your answer is incorrect. N (b) Determine the acceleration of each object. m/s2 upwards (2.45 kg mass) m/s2 downwards (4.15 kg mass) (c) Determine the distance each object will move in the first second of motion if they...
Suppose you are driving a car in a counterclockwise direction on a circular road whose radius is r 28 m/s (about 63 mi/h) 385 m (see the figure). You look at the speedometer and it reads a steady T(decreasing) (a) Constant angular speed (b) Decreasing angular speed Concepts (i) Does an object traveling at a constant tangential speed (for example, vT= 28 m/s) along a circular path have an acceleration? Yes No (ii) Is there a tangential acceleration aT when...
An object with a mass of m - 4.80 kg is attached to the free end of a light string wrapped around a reel of radius R - 0.275 m and mass of M 3.00 kg. The reel is a solid disk, free to rotate in a vertical plane about the horizontal axis passing through its center as shown in the figure below. The suspended object is released from rest 6.80 m above the floor. (a) Determine the tension in...
Two objects are connected by a light string passing over a light frictionless pulley. The 6.57 kg object is released from rest at a point 5.42 m above the floor. The acceleration of gravity is 9.8 m/s2 . Find the speed of each object just as they pass each other. Answer in units of m/s. 005 (part 2 of 3) 10.0 points b) What is the speed of the each object at the instant before the 6.57 kg hits the...