stability
Measure of how difficult it is to move an object from a position of balance or equilibrium with respect to gravity.
Measure of how difficult it is to move an object from a position of balance or equilibrium with respect to gravity.
An object displaced from equilibrium does not remain in its new position if its weight, acting vertically downwards through its centre of mass, no longer passes through the line of action of the contact force (the force exerted by the surface on which the object is resting), acting vertically upwards through the object's new base. If the lines of action of these two opposite but equal forces do not coincide they will form a couple and create a moment (see moment of a force) that will cause the object either to return to its original rest position or to topple over into another position.
An object in stable equilibrium returns to its rest position after being displaced slightly. This form of equilibrium is found in objects that are difficult to topple over; these usually possess a relatively wide base and a low centre of mass – for example, a cone resting on its flat base on a horizontal surface. When such an object is tilted slightly its centre of mass is raised and the line of action of its weight no longer coincides with that of the contact force exerted by its new, smaller base area. The moment created will tend to lower the centre of mass and so the cone will fall back to its original position.
An object in unstable equilibrium does not remain at rest if displaced, but falls into a new position; it does not return to its original rest position. Objects possessing this form of equilibrium are easily toppled and usually have a relatively small base and a high centre of mass – for example, a cone balancing on its point, or apex, on a horizontal surface.
When an object such as this is given the slightest push its centre of mass is lowered and the displacement of the line of action of its weight creates a moment. The moment will tend to lower the centre of mass still further and so the object will fall on to another position.
An object in neutral equilibrium stays at rest if it is moved into a new position – neither moving back to its original position nor on any further. This form of equilibrium is found in objects that are able to roll, such as a cone resting on its curved side placed on a horizontal surface. When such an object is rolled its centre of mass remains in the same position, neither rising nor falling, and the line of action of its weight continues to coincide with the contact force; no moment is created and so its equilibrium is maintained
Stability : depends on so many things meanly:
- the hight of the car( the more the hight the less the stability)
- size of the wheels ( the wider the tires the more stability)
- width of the car (the more the width the more stability)
- aerodynamics (the smoother the side profile the more stability)
- suspension ( the tougher the suspension is the more the stability in curves)
But the problem is the the tougher the suspension the less comfort
Don't worry there is a system combined between stability and comfort
is called (bose active suspension)
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