Equilibrium occurs whenever the net force on an object is 0.
A basic example is a person standing up. This person is at equilibrium because the net force on them is 0, and they are not accelerating. The force of gravity is pulling them down at 9.81 meters per second, but the surface that they are standing upon is pushing back up at 9.81 meters per second as well (This is called the "normal" force). Therefore, the two forces cancel each other out and the net force is 0.
The same would be true in a situation where two people are pushing with equal force in opposite directions on a box.
Any object resting on a table, on the floor, etc., is said to be in equilibrium. The amount of money in a bank account never changes
Any object resting on a table, on the floor, etc., is said to be in equilibrium. The amount of money in a bank account never changes
Any object resting on a table, on the floor, etc., is said to be in equilibrium. The amount of money in a bank account never changes
water passes into an animal cell causing it to swell
That situation is called a Hardy-Weinberg equilibrium. Not actually seen outside of the lab.
Market equilibrium is this situation when market demand is equal of market supply
The amount of money in a bank account never changes.When you see your girlfriend going out with a boy, you may be highly tensed. When you realize that boy is her brother, your tension goes down and will be in equilibrium state.
The amount of money in a bank account never changes.When you see your girlfriend going out with a boy, you may be highly tensed. When you realize that boy is her brother, your tension goes down and will be in equilibrium state.
In any situation in which an object doesn't move, it is in equilibrium.
The amount of money in a bank account never changes.When you see your girlfriend going out with a boy, you may be highly tensed. When you realize that boy is her brother, your tension goes down and will be in equilibrium state.
A system is said to be social equilibrium when there is a dynamic working balance among its interdependent parts.
No. Equilibrium is the term that describes the situation when all active forces add up to zero.