first condition for equilibrium is that the a body is satisfy with first condition if the resultant of all the forces acting on it is zero let n numbers of the forces F1, F2,F3,.........., Fn are acting on a body such that sigmaF=0 a book lying on a table or picture hanging on the wall are at rest and thus satisfy with first condition of equilibrium a paratrooper coming with terminal velocity also satisfies first condition of equilibrium
coplanar and concurrent equilibrium
It is in equilibrium when the two conditions are satisfied - there is no net translational equilibrium and no net rotational equilibrium. For translational equilibrium, the summation of forces acting on the matter must equate to zero, which means that there is no resultant force. For rotational equilibrium, the sum of moments must be zero, which means there is no resultant torque. When these two conditions are met, the object will be stationary, i.e. it is in a state of equilibrium.
comparative statics is a comparative study of economic conditions at two equilibrium positions under two static conditions at two different points in time. in a comparative static analysis, in fact, we are comparing the equilibrium values of the system corresponding to the two equilibrium positions with one another. this sort of comparative analysis of two equilibrium positions may be described as comparative static analysis.
Explain the producer's equilibrium?
Equilibrium means that an object will stay at rest or not accelerate; the conditions are the net force is zero and the net moment about any point is zero.
Explain the consumer equilibrium with the help of indifference curve?
An equilibrium constant
An equilibrium constant
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The first condition of equilibrium can be applied on concurrent forces that are equal in magnitude, since these produce translational equilibrium. But if the forces are equal in magnitude but are non concurrent then even first condition of equilibrium is satisfied but torque is produced which does not maintain rotational equilibrium. Hence for complete equilibrium that is, both translational and rotational , both the conditions should be satisfied.
i dont known
By a line separating the phases
By a line separating the phases.