Problem 2: (6 pts)) Two masses are connected by a string as shown in the figure...
Problem 2: (6 pts) ) Two masses are connected by a string as shown in the figure below. Mass mB = 2.00 kg moves up while mA 12.0 kg moves down a frictionless inclined. The pulley is frictionless and has a mass M-2.00 kg, and a radius R-0.200 m (1= ½ MR) (a) Draw the free body diagram for the masses and pulley separately. (b) Use Newton's Second Law of Motion to find the resulting acceleration (2pts) (2pts) (2pts) of...
Question 2 5 pts Two equal masses m are connected by a very light string over a frictionless pulley of mass m/2. The system has been given a push to get it moving as shown, but that push is no longer acting. In which segment of the string is the tension greater? Constant v The two tensions are the same The tension in A is greater. The tension in B is greater.
In the figure, two blocks, of masses 2.00 kg and 3.00 kg, are connected by a light string that passes over a frictionless pulley of moment of inertia 0.006kg - m^2 and radius 7.00 cm. Find: a) The acceleration of the blocks b) The angular acceleration of the pulley
Two blocks are connected by a lightweight string passing over a pulley, as shown in the figure below. The block with mass m1 = 16.5 kg on the incline plane accelerates up the plane with negligible friction. The block's acceleration is a = 1.40 m/s2, and the tension in the segment of string attached to this block is T1. The hanging block has a mass of m2 = 23.5 kg, and the tension in the string attached to it is T2....
3. Adwood's machine consists of two masses connected by a string over a frictionless pulley of negligible mass. One block has mass mi = 35 kg and the other has mass m2 = 45 kg as shown below. (a) Draw all forces and tensions and find the tension in the string (10 pt) (b) Find the magnitude of the block's acceleration (5 pt)
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...
Two masses, mA = 29.0 kg and mg = 42.0 kg are connected by a rope that hangs over a pulley (as in the figure). The pulley is a uniform cylinder of radius R. 0.311 m and mass 3.4 kg. Initially, mis on the ground and mp rests 2.5 m above the ground. MA 25 m Part A If the system is now released, use conservation of energy to determine the speed of me just before it strikes the ground....
Two packing crates of masses m-10.0 kg and m2-3.30 kg are connected by a light string that passes over a frictionless pulley as in the figure below. The 3.30-kg crate lies on a smooth incline of angle 38.0°. Find the following (a) trie acceleration of the 3.30-kg crate m/s2 (up the incline) (b) the tension in the string
0.100 m Problem 5 A Pi as shown below. The around this pulley with one end attached to a wall and the other to an object of mass m2 on a frictionless and horizontal table. (a) If ai and a2 are the accelerations of mi and m2, respectively what is the relation between these two accelerations? (b) Find an expression for the tensions in the strings in terms of the masses m; and m2 (c) Find the accelerations ai and...
3. Two masses are connected by a string passing over a frictionless pulley as in the figure. The pulley is a 5 kg, 0.5 m radius ring with five 1 kg spokes. The ramp has a kinetic friction coefficient uk = 0.2. What is the acceleration of the mass on the left? Answer: 1.94 m/s2 10kg