Answer to Question #169147 in Classical Mechanics for Daniel Abram

 Incline 40 degrees, incline-object = 2 kg, hanger mass = 4 kg

Use 9.8 m/s/s for g

Describe how mu increased, acceleration down, but tension internal force up

Plot tension on y-axis, acceleration on x-axis for the 2 kg mass with mu =0.25 using the 2 kg equation of (T, a). Repeat for the 4 kg using the 4 kg equation of (T, a) on the same graph, the intersection is the graphical solution. Repeat for the 2 kg with mu=0.4 using the 2 kg equation of (T, a) on the same graph, the intersection is the graphical solution.

Writing intensive: explain the graph as a trend justification, the shift of the intersection points to other values.

 Incline 40 degrees, incline-object = 2 kg, hanger mass = 4 kg

Use 9.8 m/s/s for g

Describe how mu increased, acceleration down, but tension internal force up

Plot tension on y-axis, acceleration on x-axis for the 2 kg mass with mu =0.25 using the 2 kg equation of (T, a). Repeat for the 4 kg using the 4 kg equation of (T, a) on the same graph, the intersection is the graphical solution. Repeat for the 2 kg with mu=0.4 using the 2 kg equation of (T, a) on the same graph, the intersection is the graphical solution.

Writing intensive: explain the graph as a trend justification, the shift of the intersection points to other values.