Problem: A brick with mass m₁ = 10kg is placed on an inclined plane with slope angle 0=30 and is connected to a second hanging brick with mass m2 = 22kg by a cord passing over a small, frictionless pulley. The surface is frictionless on the inclined plane. Assume that the hanging brick m2 causes the acceleration of the system which in turn moves the other brick up the inclined plane. What is the resulting acceleration and tension based on the problem above? O a = 5.21 m/s2; T = 101.2 N O a = 3.02 m/s²; T = 104.7 N O a = 4.23 m/s2; T = 123.5 N O a = 8.21 m/s²; T = 134.3 N

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Chapter1: Units, Trigonometry. And Vectors
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Problem: A brick with mass m₁ = 10kg is placed on an inclined plane with slope angle 0=30 and
is connected to a second hanging brick with mass m₂ = 22kg by a cord passing over a small,
frictionless pulley. The surface is frictionless on the inclined plane. Assume that the hanging
brick m₂ causes the acceleration of the system which in turn moves the other brick up the
inclined plane.
What is the resulting acceleration and tension based on the problem above?
O a = 5.21 m/s²; T = 101.2 N
a = 3.02 m/s2; T = 104.7 N
a = 4.23 m/s²; T = 123.5 N
O a 8.21 m/s²; T = 134.3 N
C
Transcribed Image Text:Problem: A brick with mass m₁ = 10kg is placed on an inclined plane with slope angle 0=30 and is connected to a second hanging brick with mass m₂ = 22kg by a cord passing over a small, frictionless pulley. The surface is frictionless on the inclined plane. Assume that the hanging brick m₂ causes the acceleration of the system which in turn moves the other brick up the inclined plane. What is the resulting acceleration and tension based on the problem above? O a = 5.21 m/s²; T = 101.2 N a = 3.02 m/s2; T = 104.7 N a = 4.23 m/s²; T = 123.5 N O a 8.21 m/s²; T = 134.3 N C
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