Here we have successfully built up a problem that uses one topic from each of the four quarters of material we have covered. A block with mass m1 a horizontal table and is attached to a rope. m1 3.00 kg sits on The горe then passes over a Isolated Air MASSIVE pulley and is attached to a block of mass m2 = 2.00 kg, which hangs vertically (see picture). The coefficient of kinetic friction of the interface between the table and m¡ is 0.1. You may assume the pulley section is a disk with a mass of 2.00 kg. We will keep the pulley frictionless for brevity. with Q added m2 Ideal disk pulley with mass of 2.00 kg This time, however, mị is a piston attached to an isolated volume of air that is heated in such a way that the air is always allowed to expand ISOBARICALLY. The pressure of air inside AND outside the chamber is 1 atm. The initial volume of air is 0.100 m³. The cross-sectional area of the m, piston on either side perpendicular to its motion is 0.0100 meters.

Here we have successfully built up a problem that uses one topic from each of the four quarters of material we have covered. A block with mass m1 a horizontal table and is attached to a rope. m1 3.00 kg sits on The горe then passes over a Isolated Air MASSIVE pulley and is attached to a block of mass m2 = 2.00 kg, which hangs vertically (see picture). The coefficient of kinetic friction of the interface between the table and m¡ is 0.1. You may assume the pulley section is a disk with a mass of 2.00 kg. We will keep the pulley frictionless for brevity. with Q added m2 Ideal disk pulley with mass of 2.00 kg This time, however, mị is a piston attached to an isolated volume of air that is heated in such a way that the air is always allowed to expand ISOBARICALLY. The pressure of air inside AND outside the chamber is 1 atm. The initial volume of air is 0.100 m³. The cross-sectional area of the m, piston on either side perpendicular to its motion is 0.0100 meters.

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Question

Here we have successfully built up a problem that uses one topic from each of the
four quarters of material we have covered. A block with mass m1
a horizontal table and is attached to a rope.
m1
3.00 kg sits on
The
горe
then
passes over a
Isolated Air
MASSIVE pulley and is attached to a block of mass m2 = 2.00 kg, which hangs
vertically (see picture). The coefficient of kinetic friction of the interface between
the table and m¡ is 0.1. You may assume the pulley section is a disk with a mass of
2.00 kg. We will keep the pulley frictionless for brevity.
with Q added
m2
Ideal disk
pulley
with mass
of 2.00 kg
This time, however, mị is a piston attached to an isolated volume of air that is heated in such a way that the air
is always allowed to expand ISOBARICALLY. The pressure of air inside AND outside the chamber is 1 atm.
The initial volume of air is 0.100 m³. The cross-sectional area of the m, piston on either side perpendicular to
its motion is 0.0100 meters.

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