1. A laboratory cart (m, = 500 g) rests on an inclined track (0 = 9°). It is connected to a lead %3D weight (m, = 100 g) suspended vertically off the end of a pulley as shown %3D the diagram below. (Assume the string and pulley contribute negligible mass to the system and that friction is kept low enough to be ignored.) string pulley cart (m,) track suspended mass (m,)
1. A laboratory cart (m, = 500 g) rests on an inclined track (0 = 9°). It is connected to a lead %3D weight (m, = 100 g) suspended vertically off the end of a pulley as shown %3D the diagram below. (Assume the string and pulley contribute negligible mass to the system and that friction is kept low enough to be ignored.) string pulley cart (m,) track suspended mass (m,)
College Physics
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Chapter1: Units, Trigonometry. And Vectors
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Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Transcribed Image Text:Solve the following problems and draw the figure.
1.
A laboratory cart (m, = 500 g) rests on an inclined track (0 = 9°). It is connected to a lead
weight (m, = 100 g) suspended vertically off the end of a pulley as shown in the diagram
below. (Assume the string and pulley contribute negligible mass to the system and that
friction is kept low enough to be ignored.)
string
pulley
cart (m,)
track
suspended mass (m,)
angle of inclination (0)
If the lead weight falls 85 cm, determine...
-
a. the final speed of the system
b. the acceleration of the system
c. the tension in the string
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