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Statics. Static Equilibrium. There are three conditions for static equilibrium. The object is at rest There is no net force There is no net torque. With no motion, forces must sum to zero. Each component is treated separately. Find the tension in the ropes. T is the tension to the left
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Static Equilibrium • There are three conditions for static equilibrium. • The object is at rest • There is no net force • There is no net torque
With no motion, forces must sum to zero. Each component is treated separately Find the tension in the ropes. T is the tension to the left S is the tension to the right W is the weight downward Vertical equality T sinq = W = mg T = mg / sinq = 3.9 x 103 N Horizontal equality S = T cosq = 3.4 x 103 N Static Forces q = 30º m = 200 kg
Offset Forces • Balanced forces do not insure static equilibrium. • The center of mass is stationary, but the object rotates. F -F
With no rotation, torques must sum to zero. A ladder leans against a wall with friction against the floor. Length l Angle q Coefficient of static friction m The sum of torques gives Static Torques FNW FNF = mg Ffrmmg -mg q
The calculation of torques is independent of the pivot point. Select the wall for the pivot. Pivot Point FNW FNF = mg Ffrmmg -mg q
The lever is a simple machine that increases force. The downward force is multiplied by the lever arm of the stick to become a torque. The torque on the rock matches the torque from the person. The Lever
Stability • When is an object in static equilibrium? • Check the forces and torques • If the torques are from gravity, find the center of mass