Problem 5: A 2.0 kg block, lying on a smooth table, is connected to another 5.0 kg block by means of a weightless cord passing over, without slipping, a cylindrical pulley of 2.0 kg mass and 10.0 cm radius placed at the edge of the table. The system is released from rest at t = 0. Consider g=9.8 m/s². (a) In 0.3s the 5.0 kg block will drop by (b) The tension in the part of cord connected horizontally to the 2.0 kg block is
Problem 5: A 2.0 kg block, lying on a smooth table, is connected to another 5.0 kg block by means of a weightless cord passing over, without slipping, a cylindrical pulley of 2.0 kg mass and 10.0 cm radius placed at the edge of the table. The system is released from rest at t = 0. Consider g=9.8 m/s². (a) In 0.3s the 5.0 kg block will drop by (b) The tension in the part of cord connected horizontally to the 2.0 kg block is
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Problem 5: A 2.0 kg block, lying on a smooth table, is connected to another 5.0 kg block by means of a weightless cord passing over, without slipping, a cylindrical pulley of 2.0 kg mass and 10.0 cm radius placed at the edge of the table. The system is released from rest at t = 0. Considerg=9.8 m/s2.
(a) In 0.3s the 5.0 kg block will drop by ________
(b) The tension in the part of cord connected horizontally to the 2.0 kg block is ________
Transcribed Image Text:Problem 5: A 2.0 kg block, lying on a smooth table, is
connected to another 5.0 kg block by means of a weightless
cord passing over, without slipping, a cylindrical pulley of
2.0 kg mass and 10.0 cm radius placed at the edge of the
table. The system is released from rest at t= 0. Consider
g=9.8 m/s?.
(a) In 0.3s the 5.0 kg block will drop by
(b) The tension in the part of cord connected horizontally to
the 2.0 kg block is
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