Yes, the equilibrium is stable.
No, not all objects at equilibrium are stable. There are two types of equilibrium: stable equilibrium, where a system returns to its original state when disturbed, and unstable equilibrium, where a system moves away from its original state when disturbed. Objects at unstable equilibrium are not stable.
In order to determine if equilibrium is stable or unstable, you can analyze the system's response to small disturbances. If the system returns to its original state after a disturbance, it is stable. If the system moves further away from equilibrium after a disturbance, it is unstable.
In a system, unstable equilibrium occurs when a small disturbance causes the system to move further away from its original position, while stable equilibrium occurs when a small disturbance causes the system to return to its original position. The key difference lies in how the system responds to disturbances, with unstable equilibrium leading to further movement away from equilibrium and stable equilibrium leading to a return to equilibrium.
The conditions that determine whether a system is in stable, unstable, or neutral equilibrium depend on how the system responds to disturbances. In stable equilibrium, the system returns to its original state after a disturbance. In unstable equilibrium, the system moves further away from its original state after a disturbance. In neutral equilibrium, the system remains in its new state after a disturbance.
An object is in stable equilibrium when its center of gravity is directly above its base of support, and any disturbance causes it to return to its original position.
No, not all objects at equilibrium are stable. There are two types of equilibrium: stable equilibrium, where a system returns to its original state when disturbed, and unstable equilibrium, where a system moves away from its original state when disturbed. Objects at unstable equilibrium are not stable.
In order to determine if equilibrium is stable or unstable, you can analyze the system's response to small disturbances. If the system returns to its original state after a disturbance, it is stable. If the system moves further away from equilibrium after a disturbance, it is unstable.
In a system, unstable equilibrium occurs when a small disturbance causes the system to move further away from its original position, while stable equilibrium occurs when a small disturbance causes the system to return to its original position. The key difference lies in how the system responds to disturbances, with unstable equilibrium leading to further movement away from equilibrium and stable equilibrium leading to a return to equilibrium.
The conditions that determine whether a system is in stable, unstable, or neutral equilibrium depend on how the system responds to disturbances. In stable equilibrium, the system returns to its original state after a disturbance. In unstable equilibrium, the system moves further away from its original state after a disturbance. In neutral equilibrium, the system remains in its new state after a disturbance.
its called equilibrium(:
Unstable.
(a) The point where the isoclines intersect is a stable equilibrium (b) No matter what the initial combination of individuals, the interaction will ultimately lead to the combination at the stable equilibrium point
An object is in stable equilibrium when its center of gravity is directly above its base of support, and any disturbance causes it to return to its original position.
It must be less than the equilibrium price
In a system, stable equilibrium occurs when a small disturbance causes the system to return to its original state. Unstable equilibrium, on the other hand, occurs when a small disturbance causes the system to move away from its original state.
(a) The point where the isoclines intersect is a stable equilibrium (b) No matter what the initial combination of individuals, the interaction will ultimately lead to the combination at the stable equilibrium point
Allele frequency is stable