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For the next 7 questions, consider the system below. The large block has a mass of...
The system shown in the figure below consists of a mass M = 3.3-kg block resting...
The system shown in the figure below consists of a mass M = 3.3-kg block resting on a frictionless horizontal ledge. This block is attached to a string that passes over a pulley, and the other end of the string is attached to a hanging m = 1.7-kg block. The pulley is a uniform disk of radius 8.0 cm and mass 0.60 kg. (a) What is the acceleration of each block? acceleration of M = 3.3 kg _____ m/s2 acceleration...
In the figure below, two blocks are connected over a pulley. The mass of block A...
In the figure below, two blocks are connected over a pulley. The mass of block A is 22 kg 3. and the coefficient of kinetic friction between A and the incline is i* =028. The mass of block B is 18 kg. Angle 0 is 30°. The system is prepared at rest but it starts moving as soon as it is released Frictionless massless pulley Assume that The system is subject to the regular force of gravity. The connecting rope...
Block A in the figure has mass mA = 4.20 kg, and block B has mass...
Block A in the figure has mass mA = 4.20 kg, and block B has mass mB = 2.40 kg. The coefficient of kinetic friction between block B and the horizontal plane is μk = 0.520. The inclined plane is frictionless and at angle θ = 34.0°. The pulley serves only to change the direction of the cord connecting the blocks. The cord has negligible mass. Find (a) the tension in the cord and (b) the magnitude of the acceleration...
In the system shown below, there is a block of mass M = 3.6 kg resting...
In the system shown below, there is a block of mass M = 3.6 kg resting on a horizontal ledge. The coefficient of kinetic friction between the ledge and the block is 0.25. The block is attached to a string that passes over a pulley, and the other end of the string is attached to a hanging block of mass m = 2.2 kg. The pulley is a uniform disk of radius 7.9 cm and mass 0.66 kg. Find the...
In the figure below, block 1 has mass m_1 = 460 g, block 2 has mass...
In the figure below, block 1 has mass m_1 = 460 g, block 2 has mass m_2 = 500 g, and the pulley, which is measured on a horizontal with 2.5200 s without the cord slipping on the pulley. (Do not treat the pulley as a uniform disk Give your answers to three significant figures. Use these rounded values in subsequent calculations) What is the magnitude of the acceleration of the blocks? What is the tension T_2? What is the...
In the figure, block 1 has mass m1 = 440 g, block 2 has mass m2...
In the figure, block 1 has mass m1 = 440 g, block 2 has mass m2
= 580 g, and the pulley is on a frictionless horizontal axle and
has radius R = 5.2 cm. When released from rest, block 2 falls 75 cm
in 4.9 s without the cord slipping on the pulley. (a) What is the
magnitude of the acceleration of the blocks? What are (b) tension
T2 (the tension force on the block 2) and (c) tension...
In the figure below the mass is known, M, as is the mass and radius of...
In the figure below the mass is known, M, as is the mass and radius of the large pulley (My, R). mg a) Calculate the magnitude of the tension in the rope, as well as the acceleration of the block. The small pulley is negligible. b) If the system is released from rest, calculate the angular velocity of the pulley and the linear velocity of the mass after a time At.
2. A 40.0 kg wagon is towed up a hill inclined at 17.5° with respect to...
2. A 40.0 kg wagon is towed up a hill inclined at 17.5° with respect to the horizontal, The tow rope is parallel to the incline and has a tension of 542 N. Assume that the wagon starts from rest at the bottom of the hill, and neglect friction. (a) How fast is the wagon going after moving 73 m up the hill? (b) What is the magnitude of the normal force acting on the wagon? 3. A 5.00 kg...
In the figure, block 1 has mass m - 490 g, block 2 has mass m2...
In the figure, block 1 has mass m - 490 g, block 2 has mass m2 - 5409, and the pulley is on a frictionless horizontal and and has radius R - 4.7 cm. When released from rest, block 2 fois 79 cm in 4.6 s without the cord slipping on the pulley (a) What is the magnitude of the acceleration of the blocks? What are (b) tension Tz (the tension force on the block 2) and (c) tension T,...
In the figure, block 1 has mass mi = 430 g, block 2 has mass m2...
In the figure, block 1 has mass mi = 430 g, block 2 has mass m2 = 520 g, and the pulley is on a frictionless horizontal axle and has radius R = 5.4 cm. When released from rest, block 2 falls 74 cm in 4.9 s without the cord slipping on the pulley. (a) What is the magnitude of the acceleration of the blocks? What are (b) tension 72 (the tension force on the block 2) and (c) tension...
In the figure below, two blocks are connected over a pulley. The mass of block A is 22 kg 3. and the coefficient of kinetic friction between A and the incline is i* =028. The mass of block B is 18 kg. Angle 0 is 30°. The system is prepared at rest but it starts moving as soon as it is released Frictionless massless pulley Assume that The system is subject to the regular force of gravity. The connecting rope...
In the figure below, block 1 has mass m_1 = 460 g, block 2 has mass m_2 = 500 g, and the pulley, which is measured on a horizontal with 2.5200 s without the cord slipping on the pulley. (Do not treat the pulley as a uniform disk Give your answers to three significant figures. Use these rounded values in subsequent calculations) What is the magnitude of the acceleration of the blocks? What is the tension T_2? What is the...
In the figure, block 1 has mass m1 = 440 g, block 2 has mass m2
= 580 g, and the pulley is on a frictionless horizontal axle and
has radius R = 5.2 cm. When released from rest, block 2 falls 75 cm
in 4.9 s without the cord slipping on the pulley. (a) What is the
magnitude of the acceleration of the blocks? What are (b) tension
T2 (the tension force on the block 2) and (c) tension...
In the figure below the mass is known, M, as is the mass and radius of the large pulley (My, R). mg a) Calculate the magnitude of the tension in the rope, as well as the acceleration of the block. The small pulley is negligible. b) If the system is released from rest, calculate the angular velocity of the pulley and the linear velocity of the mass after a time At.
2. A 40.0 kg wagon is towed up a hill inclined at 17.5° with respect to the horizontal, The tow rope is parallel to the incline and has a tension of 542 N. Assume that the wagon starts from rest at the bottom of the hill, and neglect friction. (a) How fast is the wagon going after moving 73 m up the hill? (b) What is the magnitude of the normal force acting on the wagon? 3. A 5.00 kg...
In the figure, block 1 has mass m - 490 g, block 2 has mass m2 - 5409, and the pulley is on a frictionless horizontal and and has radius R - 4.7 cm. When released from rest, block 2 fois 79 cm in 4.6 s without the cord slipping on the pulley (a) What is the magnitude of the acceleration of the blocks? What are (b) tension Tz (the tension force on the block 2) and (c) tension T,...
In the figure, block 1 has mass mi = 430 g, block 2 has mass m2 = 520 g, and the pulley is on a frictionless horizontal axle and has radius R = 5.4 cm. When released from rest, block 2 falls 74 cm in 4.9 s without the cord slipping on the pulley. (a) What is the magnitude of the acceleration of the blocks? What are (b) tension 72 (the tension force on the block 2) and (c) tension...
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