Homework Answers
(20 pts) 2. A mass (M-5.0 kg) is connected by a light cord to a mass...
(20 pts) 2. A mass (M-5.0 kg) is connected by a light cord to a mass ( T2 4.0 kg) which slides on a smooth surface, as shown in the figure. T The pulley (radinus-0.20 m) rotates about a frictionless axle. The acceleration of M2 is 3.5 m/s a) Draw a free body diagrams for mass Mi, M, and the pulley as it is moving. Use the illustrations below. Label ALL forces on the free body diagrams. (4 pts) b)...
A mass m2 = 15.0 kg is connected by a light cord to a mass m1...
A mass m2 = 15.0 kg is connected by a light cord to a mass m1 = 15.0 kg, which slides on a smooth horizontal surface. The pulley, of mass M = 1.00 kg, rotates about a frictionless axle and has a radius R = 0.200 m and a moment of inertia I = 0.0900 kg-m2 . The cord does not slip on the pulley. a) What is the magnitude of the acceleration of m1? b) What is the tension...
An object of mass m1 = 4.50 kg is connected by a light cord to an object of mass
An object of mass m1 = 4.50 kg is connected by a light cord to an object of mass m2 = 3.00 kg on a frictionless surface (see figure). The pulley rotates about a frictionless axle and has a moment of inertia of 0.570 kg · m² and a radius of 0.310 m. Assume that the cord does not slip on the pulley. (a) Find the acceleration of the two masses. m/s2 (b) Find the tensions T1 and T2
A mass m_1 = 9.00 kg is connected by a light string that passes over a...
A mass m_1 = 9.00 kg is connected by a light string that passes over a pulley of mass M = 13.5 kg to a mass m_2 = 12.0 kg sliding on a horizontal frictionless surface (sec figure). There is no slippage between the string and the pulley. What is the magnitude of the tension that is acting on mass m_1? (The moment of inertia of the pulley is 1/2Mr^2.)
A sphere of mass mi and a block of mass m2 are connected by a light...
A sphere of mass mi and a block of mass m2 are connected by a light cord that passes over a pulley, as shown in the figure. The radius of the pulley is R and the moment of inertia about its axle is I. The block slides on a frictionless, horizontal surface. Find an expression for the linear acceleration of the two objects as a function of mi, m2, I and R. R
Two blocks of mass m_1 = 3.00 kg and m_2 = 7.00 kg are connected by...
Two blocks of mass m_1 = 3.00 kg and m_2 = 7.00 kg are connected by a massless string that passes over a frictionless pulley (see the figure below). The inclines are frictionless Find the magnitude of acceleration of each block. m/s^2 Find the tension in the string. N
Consider the system shown in the figure below with m_1 = 24.0 kg, m_2 = 12.6...
Consider the system shown in the figure below with m_1 = 24.0 kg, m_2 = 12.6 kg, R = 0.260 m, and the mass of the pulley M = 5.00 kg. Object m_2 is resting on the floor, and object m_1 is 4.60 m above the floor when it is released from rest. The pulley axis is frictionless. The cord is light, does not stretch, and does not slip on the pulley. Calculate the time interval required for m_1 to...
Two blocks of masses m_1 = 4 kg and m_2 = 5kg are connected by a...
Two blocks of masses m_1 = 4 kg and m_2 = 5kg are connected by a massless string that passes over a massless frictionless pulley as shown in Fig. 6.34. Block m_1 is initially at rest on a smooth horizontal plane while block m_2 is at a height h = 0.75 m above the ground. Use conservation of mechanical energy to find the speed of the masses just before m_2 hits the ground.
In the figure below, the hanging object has a mass of m_1 = 0.400 kg; the...
In the figure below, the hanging object has a mass of m_1 = 0.400 kg; the sliding block has a mass of m_2 = 0.770 kg; and the pulley is a hollow cylinder with a mass of M = 0.350 kg, an inner radius of R_1 = 0.020 0 m, and an cuter radius of R_3 = 0.030 0 m. Assume the mass of the spokes is negligible. The coefficient of kinetic friction between the block and the horizontal surface...
Two objects with masses of m_1 = 2.00 kg and m_2 = 8.00 kg are connected...
Two objects with masses of m_1 = 2.00 kg and m_2 = 8.00 kg are connected by a light string that passes over a frictionless pulley, as in the figure below. Determine the tension in the string. (Enter the magnitude only.) Determine the acceleration of each object. (Enter the magnitude only.) Determine the distance each object will move in the first second of motion if both objects start from rest.
(20 pts) 2. A mass (M-5.0 kg) is connected by a light cord to a mass ( T2 4.0 kg) which slides on a smooth surface, as shown in the figure. T The pulley (radinus-0.20 m) rotates about a frictionless axle. The acceleration of M2 is 3.5 m/s a) Draw a free body diagrams for mass Mi, M, and the pulley as it is moving. Use the illustrations below. Label ALL forces on the free body diagrams. (4 pts) b)...
A mass m_1 = 9.00 kg is connected by a light string that passes over a pulley of mass M = 13.5 kg to a mass m_2 = 12.0 kg sliding on a horizontal frictionless surface (sec figure). There is no slippage between the string and the pulley. What is the magnitude of the tension that is acting on mass m_1? (The moment of inertia of the pulley is 1/2Mr^2.)
A sphere of mass mi and a block of mass m2 are connected by a light cord that passes over a pulley, as shown in the figure. The radius of the pulley is R and the moment of inertia about its axle is I. The block slides on a frictionless, horizontal surface. Find an expression for the linear acceleration of the two objects as a function of mi, m2, I and R. R
Two blocks of mass m_1 = 3.00 kg and m_2 = 7.00 kg are connected by a massless string that passes over a frictionless pulley (see the figure below). The inclines are frictionless Find the magnitude of acceleration of each block. m/s^2 Find the tension in the string. N
Consider the system shown in the figure below with m_1 = 24.0 kg, m_2 = 12.6 kg, R = 0.260 m, and the mass of the pulley M = 5.00 kg. Object m_2 is resting on the floor, and object m_1 is 4.60 m above the floor when it is released from rest. The pulley axis is frictionless. The cord is light, does not stretch, and does not slip on the pulley. Calculate the time interval required for m_1 to...
Two blocks of masses m_1 = 4 kg and m_2 = 5kg are connected by a massless string that passes over a massless frictionless pulley as shown in Fig. 6.34. Block m_1 is initially at rest on a smooth horizontal plane while block m_2 is at a height h = 0.75 m above the ground. Use conservation of mechanical energy to find the speed of the masses just before m_2 hits the ground.
In the figure below, the hanging object has a mass of m_1 = 0.400 kg; the sliding block has a mass of m_2 = 0.770 kg; and the pulley is a hollow cylinder with a mass of M = 0.350 kg, an inner radius of R_1 = 0.020 0 m, and an cuter radius of R_3 = 0.030 0 m. Assume the mass of the spokes is negligible. The coefficient of kinetic friction between the block and the horizontal surface...
Two objects with masses of m_1 = 2.00 kg and m_2 = 8.00 kg are connected by a light string that passes over a frictionless pulley, as in the figure below. Determine the tension in the string. (Enter the magnitude only.) Determine the acceleration of each object. (Enter the magnitude only.) Determine the distance each object will move in the first second of motion if both objects start from rest.
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