Explain the types of stability withsuitableexampeles
Answers
Explanation:
Different types of stability:
- Freeze and Thaw
- Stability,Bench-Top
- Stability,Long-Term Stability,Stock
- Solution Stability,Processed
- Sample Stability.
Examples
Stability is the state of being resistant to change and not prone to wild fluctuations in emotion. An example of stability is a calm, stable life where you don't have wild ups and downs. The condition of being stable or in equilibrium, and thus resistant to change. The tendency to recover from perturbations.
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Answer:
TYPES OF STABILITY :
1. STABLE EQUILIBRIUM
If a structure is pushed out of equilibrium we say it has been displaced from equilibrium. If the object tends to move back toward its equilibrium position then it must be in a region of stable equilibrium and the force that pushed it back is a restoring force.
As your arm hangs from your shoulder, it is in stable equilibrium. If your arm is lifted to the side and then let go it will fall back down to the hanging position. The hanging arm is a stable position because the center of gravity of the arm is located below the base of support, in this case the shoulder. When displaced (lifted a bit) the force of gravity acting on your arm will cause a torque that rotates your arm back down to the hanging position. In such cases, when an object is displaced from the equilibrium position and the resulting net forces (or torques they cause) move the object back toward the equilibrium position then these forces are called restoring forces. The sloth takes advantage of stable equilibrium to save energy that humans spend on staying upright. If the sloth is displaced in any direction, the force of gravity automatically acts as a restoring force and returns the slot to its equilibrium position.
. [2] UNSTABLE EQUILIBRIUM :
When a system in equilibriumis displaced and the resulting net force pushes the object even further away from the equilibrium position then it must have been in an unstable equilibrium. Technically, real systems cannot spend time at unstable equilibrium point because the tiniest vibration will cause them to move out of equilibrium not to mention that you could never place them perfectly into position in the first place. Trying to balance a marble on a hill is a good example:
[3] METASTABLE EQUILIBRIUM :
Some structures that are in stable equilibriumand can be displaced relatively far before they are no longer in equilibrium. Other structures structures that only require a small displacement to move out of equilibrium (like toddlers). We often call these systems stable and unstable, but this can be misleading because any standing structure is somewhat stable and a truly unstable structure would not stand still for any time. These structures that are in a stable region, but could be pushed passed a tipping point are known to be in a metastable equilibrium.
A marble sits at the bottom of depression at the top of a spherical hill. A marble moved down the left side of the hill beyond the depression has an arrow pointing down and left, showing the direction of the net force on the ball.
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