Friction & Inclined Planes

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Friction & Inclined Planes

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Presentation transcript:

Friction & Inclined Planes Honors Physics

TWO types of Friction Static – Friction that keeps an object at rest and prevents it from moving Kinetic – Friction that acts during motion

Force of Friction The Force of Friction is directly related to the Force Normal. Mostly due to the fact that BOTH are surface forces The coefficient of friction is a unitless constant that is specific to the material type and usually less than one. Note: Friction ONLY depends on the MATERIALS sliding against each other, NOT on surface area.

Friction & N.F.L If the coefficient of kinetic friction between a 35-kg crate and the floor is 0.30, what horizontal force is required to move the crate to the right at a constant speed across the floor? Fn Fa Ff mg 102.9 N

Friction & N.S.L. Suppose the same 35 kg crate was not moving at a constant speed, but rather accelerating at 0.70 m/s/s. Calculate the applied force. The coefficient of kinetic friction is still 0.30. Fn Fa Ff mg 127.4 N

Inclines q q Ff FN q q q Tips Rotate Axis Break weight into components Write equations of motion or equilibrium Solve mg q

Friction & Inclines A person pushes a 30-kg shopping cart up a 10 degree incline with a force of 85 N. Calculate the coefficient of friction if the cart is pushed at a constant speed. Fa Fn q Ff mg 0.117 q

Example A 5-kg block sits on a 30 degree incline. It is attached to string that is thread over a pulley mounted at the top of the incline. A 7.5-kg block hangs from the string. a) Calculate the tension in the string if the acceleration of the system is 1.2 m/s/s b) Calculate the coefficient of kinetic friction. T FN m2 m2gcos30 Ff 30 T m2g m1 30 m2gsin30 m1g

Example 64.5 N 0.80 N