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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.
For equilibrium, two conditions have to be met:* The sum (vector sum) of all forces acting on the object has to be zero (otherwise, it will start to accelerate). * The sum of all torques acting on the object has to be zero (otherwise, it will start to rotate).
C. The applied force must make the object move. D. At least part of the applied force must be in the same direction as the movement of the object.
nothing would happen...
The immovable object met the irresistible force- and the sparks really flew.
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.
No. There are two conditions for equilibrium; both must be met:1) The sum of all forces must be zero.2) The sum of all torques must be zero.
well, you must have a object that gets put under pressure by pistons or what not.
For equilibrium, two conditions have to be met:* The sum (vector sum) of all forces acting on the object has to be zero (otherwise, it will start to accelerate). * The sum of all torques acting on the object has to be zero (otherwise, it will start to rotate).
-At least part of the applied force must be in the same direction as the movement of the object. -The applied force must make the object move. APEX ANSWER!! <3;&Dweeb
1 there must be movement 2. there must be force 3. the force and satnce the object travels must be in the same direction
well, you must have a object that gets put under pressure by pistons or what not.
C. The applied force must make the object move. D. At least part of the applied force must be in the same direction as the movement of the object.
In order for a population to maintain Hardy-Weinberg Equilibrium four conditions must be met. First, there must be random mating. This means that individuals do not choose their mate based on any sort of characteristic and reproduce by random chance alone. Second, there must be no mutation or migration. This means both that there can be no mutations in the DNA of the organisms and also that individuals must not enter or leave the population. Third, the population must be large. A small population will experience genetic drift and negate the equilibrium. Fourth, there must be no selection. This means that no trait should give a survival advantage or disadvantage to the individuals possessing it. Since it is incredibly unlikely that all of these conditions will be met, we do not see cases of Hardy-Weinberg Equilibrium in real life.
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candy
Perimeters must be the same