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Psing05
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In the apparatus shown, m1 = 2.0 kg, theta = 37°, and the coefficients of static and kinetic friction between m1 and the inclined plane are 0.30 and 0.20, respectively.
Figure 4.38,
m1 is on an incline, 37 degrees above the horizontal, connected to a pulley which is connected to m2 hanging.
(a) What is m2 if both masses are at rest?
between kg and kg
(b) What is m2 if both masses are moving at constant velocity?
between kg and kg
Include friction in all parts.
Ok, I'm looking at this question and i think first I have to do
m1gsintheta = m2gsintheta
But I'm not sure
Could someone direct me in the right path?
Figure 4.38,
m1 is on an incline, 37 degrees above the horizontal, connected to a pulley which is connected to m2 hanging.
(a) What is m2 if both masses are at rest?
between kg and kg
(b) What is m2 if both masses are moving at constant velocity?
between kg and kg
Include friction in all parts.
Ok, I'm looking at this question and i think first I have to do
m1gsintheta = m2gsintheta
But I'm not sure
Could someone direct me in the right path?
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