stable equilibrium

(noun)

The response [of a system in static equilibrium] to a small perturbation is forces that tend to restore the equilibrium.

Related Terms

Examples of stable equilibrium in the following topics:

  • Thermal Instability

    • If the power absorbed and generated within the gas equals the power emitted by the gas, the temperature of the gas will remain constant and equilibrium is achieved.
    • The question remains whether this equilibrium is stable.
    • Heuristically we can see that if the cooling rate increases faster with temperature than the heating rate, then a slight increase in temperature will result in the gas cooling faster and the temperature returning to its equilibrium value.

  • Stability, Balance, and Center of Mass

    • An object in static equilibrium remains in the same state forever, but not all forms of equilibrium are the same.
    • When the first derivative is zero, we can take the second derivative to find whether the equilibrium is stable or unstable.
    • \frac{d^2 U(x)} {dx^2} \right|_{x_0} > 0$, then the system is stable; conversely, if the potential is concave-down, then the equilibrium is unstable.
    • If the second derivative is zero or does not exist, then the equilibrium is neutral—neither stable nor unstable.
    • This is an example of unstable equilibrium.

  • Period of a Mass on a Spring

    • Once released, the restoring force causes the ruler to move back toward its stable equilibrium position, where the net force on it is zero.
    • The maximum displacement from equilibrium is known as the amplitude X .
    • The object's maximum speed occurs as it passes through equilibrium.
    • (d) The equilibrium point is reach again, this time with momentum to the right.
    • It stops the ruler and moves it back toward equilibrium again.

  • Problems

    • This is the thickness of a layer in thermal equilibrium.
    • If the surface luminosity increases faster with temperature than the helium burning rate, then the layer is stable.

  • First Condition

    • The first condition of equilibrium is that the net force in all directions must be zero.
    • For an object to be in equilibrium, it must be experiencing no acceleration.
    • The condition $F_\text{net} = 0$ must be true for both static equilibrium, where the object's velocity is zero, and dynamic equilibrium, where the object is moving at a constant velocity.
    • Below, the motionless person is in static equilibrium.
    • This car is in dynamic equilibrium because it is moving at constant velocity.

  • Radioactive Decay Series: Introduction

    • Most radioactive elements do not decay directly to a stable state; rather, they undergo a series of decays until eventually a stable isotope is reached.
    • The daughter isotope may be stable, or it may itself decay to form a daughter isotope of its own.
    • When equilibrium is achieved, a granddaughter isotope is present in proportion to its half-life.

  • The Zeroth Law of Thermodynamics

    • The Zeroth Law of Thermodynamics states that systems in thermal equilibrium are at the same temperature.
    • If A and C are in thermal equilibrium, and A and B are in thermal equilibrium, then B and C are in thermal equilibrium.
    • Temperature is the quantity that is always the same for all systems in thermal equilibrium with one another.
    • The double arrow represents thermal equilibrium between systems.
    • If systems A and C are in equilibrium, and systems A and B are in equilibrium, then systems B and C are in equilibrium.

  • Translational Equilibrium

    • This implies two types of possible equilibrium.
    • Static or dynamic, these kinds of equilibrium can be categorized as translational equilibrium.
    • Examples of translational equilibrium are all around us.
    • These six forces are in equilibrium.
    • Assess the role each type of equilibrium plays in mechanical devices

  • A Review of the Zeroth Law

    • Zeroth law justifies the use of thermodynamic temperature, defined as the shared temperature of three designated systems at equilibrium.
    • The Zeroth Law of Thermodynamics states: If two systems, A and B, are in thermal equilibrium with each other, and B is in thermal equilibrium with a third system, C, then A is also in thermal equilibrium with C.
    • Two systems are in thermal equilibrium if they could transfer heat between each other, but don't.
    • Indeed, experiments have shown that if two systems, A and B, are in thermal equilibrium with each other, and B is in thermal equilibrium with a third system C, then A is also in thermal equilibrium with C.
    • The objects are then in thermal equilibrium, and no further changes will occur.

  • Second Condition

    • The second condition of static equilibrium says that the net torque acting on the object must be zero.
    • A child's seesaw, shown in , is an example of static equilibrium.
    • An object in static equilibrium is one that has no acceleration in any direction.
    • If a given object is in static equilibrium, both the net force and the net torque on the object must be zero.
    • The system is in static equilibrium, showing no acceleration in any direction.