I am not sure about numbering, but for an object to be in equilibrium, two conditions must be fulfilled:
In First condition of equilibrium the sum of all forces is zero.
"Inebriation" "Intoxication"
Equilibrium occurs when the first derivative is zero.
In equilibrium, the sum of total vertical, total horizontal forces = 0, and movement of the body = 0.
When the object is at rest with respect to the frame of reference chosen.
In First condition of equilibrium the sum of all forces is zero.
Consider two equal and opposite forces acting along different lines of the body, which causes the body to rotate, although first condition is fulfilled but body is still moving. Thus, we need another condition for equilibrium that is the second condition of equilibrium.
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
The equilibrium condition requires the sum of the forces on the body to be zero.
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.
Vertigo
I am not sure about numbering, but for an object to be in equilibrium, two conditions must be fulfilled:The sum of all the forces on the object must be zero.The sum of all the torques must be zero.
The internal equilibrium is a balance condition between internal forces and the commulative integrated stresses.
"Inebriation" "Intoxication"
Equilibrium Condition.
the type of equilibrium that occurs when an allele frequencies do not change is dynamic equilibrium :)
equilibrium