To find out the angle of static, dynamic friction and the coefficient of friction between various materials on precision friction force apparatus at different speeds.

Object: To find out the angle of static, and dynamic friction and the coefficient of friction between various materials on precision friction force apparatus at different speeds.

THEORY:

EQUIPMENT AND MATERIALS USED.

PROCEDURE ADOPTED:

CALCULATION:TABLE (1) BLOCK ONSurface

Speed	Added load (N)	Block Weight (N)	Total Normal Force (N)	Sliding force (N)		Frictional Coefficient (Min) µ= F/N	Frictional Coefficient (Max) µ= F/N	Angle of Friction (Min) θ = tan μ	Angle of Friction (Max) θ = tan μ
Speed	Added load (N)	Block Weight (N)	Total Normal Force (N)	Min	Max	Frictional Coefficient (Min) µ= F/N	Frictional Coefficient (Max) µ= F/N	Angle of Friction (Min) θ = tan μ	Angle of Friction (Max) θ = tan μ

TABLE (2) BLOCK ONSurface

Speed	Added load (N)	Block Weight (N)	Total Normal Force (N)	Sliding force (N)		Frictional Coefficient (Min) µ= F/N	Frictional Coefficient (Max) µ= F/N	Angle of Friction (Min) θ = tan μ	Angle of Friction (Max) θ = tan μ
Speed	Added load (N)	Block Weight (N)	Total Normal Force (N)	Min	Max	Frictional Coefficient (Min) µ= F/N	Frictional Coefficient (Max) µ= F/N	Angle of Friction (Min) θ = tan μ	Angle of Friction (Max) θ = tan μ

TABLE (3) BLOCK ONSurface

Speed	Added load (N)	Block Weight (N)	Total Normal Force (N)	Sliding force (N)		Frictional Coefficient (Min) µ= F/N	Frictional Coefficient (Max) µ= F/N	Angle of Friction (Min) θ = tan μ	Angle of Friction (Max) θ = tan μ
Speed	Added load (N)	Block Weight (N)	Total Normal Force (N)	Min	Max	Frictional Coefficient (Min) µ= F/N	Frictional Coefficient (Max) µ= F/N	Angle of Friction (Min) θ = tan μ	Angle of Friction (Max) θ = tan μ

RESULTS & OBSERVATION:

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