When two or more forces affect an object at the same time it creates a net force.
the object accelerates in each direction that the forces define. The object will accelerate, overall, in a direction representative of all forces.
There are more than three possible changes. Some of them are:The object is crushed.The object is stretched.The object undergoes a shear distortion.Nothing happens: the object is more resistant than the forces acting on it.
If there are two or more unequal forces acting on an object then the object will be acting on the forces. ^_^
The four factors that affect stability are the center of gravity, the reaction forces, the buoyancy, and the moment of inertia. The center of gravity is the point at which the weight of an object is concentrated. It is the point at which the object balances when it is in equilibrium. If the center of gravity is located too far forward or backward, the object will be less stable and more prone to tipping over. When the object has its center of gravity located in the center, it will be more stable. The reaction forces refer to the forces that act on an object when it is in contact with another object. These forces include gravity, friction, and surface tension. If the reaction forces are not balanced, the object will be less stable. The buoyancy of an object is a measure of its ability to float in water or other fluids. The buoyancy of an object is determined by its density, shape, and size. If an object is too heavy, it will sink; if it is too light, it will float. An object’s buoyancy will affect its stability in water. The moment of inertia is a measure of an object’s resistance to changes in its rotational motion. The higher the moment of inertia, the more stable the object is. If the moment of inertia is too low, the object will be more prone to tipping over. These four factors all affect the stability of an object. The center of gravity affects the object’s balance, the reaction forces affect how the object interacts with other objects, the buoyancy affects how the object behaves in water, and the moment of inertia affects the object’s resistance to changes in its rotational motion. When these four factors are in balance, the object will be more stable.
If the sum of all forces acting upon an object is not zero, then the object will accelerate. (Newton's first law)
The sum of the forces must be zero. More precisely, "the forces on an object are balanced" means the same as "the vector sum of the forces acting on an object is equal to zero".
The sum of the forces must be zero. More precisely, "the forces on an object are balanced" means the same as "the vector sum of the forces acting on an object is equal to zero".
The object will be in the state of equilibrium unless it is affected by another unbalanced force.Unbalance force make object move or stop by making more impact than the forces already on the object.For example there are several forces acting on the object even when it seems to be at rest.But only thing is that the resultant of all the forces is zero.So any force that can disturb the equilibrium can affect the equilibrium.
the object moves slower
Sometimes. If an object is falling, it's position relative to the Earth, will affect its velocity. Between two parallel electric plates, the velocity of an charged oil drop is independent of its position (more or less).
forces push and pull on an object making the object move in the direction of the force. the stronger force would overcome the lesser force, causing the object's motion to go in the direction of the stronger force (newton's 2nd law).alsoif forces are balanced there s no acceleration hence there is no motion.....thus if forces are unbalanced the motion is in the same direction as the resultant force (the greater force acting on an object)When the forces acting on an object are unbalanced, The one with more mass will pull on the other one, causing a change in motion.
The more mass there is the more inertia there is.