The system will be at rest when the force of gravity pulling on down the plane combined with the force of friction will equal the weight of Now suppose θ= 30°, m1=6kg, m2=8kg Calculate by hand: 1. What would m1 need to change to, to keep the system at rest? 2. What would the smallest μk be?

The system will be at rest when the force of gravity pulling on down the plane combined with the force of friction will equal the weight of Now suppose θ= 30°, m1=6kg, m2=8kg Calculate by hand: 1. What would m1 need to change to, to keep the system at rest? 2. What would the smallest μk be?

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Question

The system will be at rest when the force of gravity pulling on down the plane combined with the force of friction will equal the weight of

Now suppose θ= 30°, m₁=6kg, m₂=8kg

Calculate by hand:

1. What would m₁ need to change to, to keep the system at rest?

2. What would the smallest μ_k be?

Atwood's Machine & Inclined Plane with Friction
Show Free Body Digrams
Mass of m, = 8 kg
%3D
Show Numerical Values
m2
m1
Mass of m, = 6 kg
O = 30°
Coefficient of Friction
between
and Surface
m2
a = 30°
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Definition Definition Force that opposes motion when the surface of one item rubs against the surface of another. The unit of force of friction is same as the unit of force.

Expert Solution