When the forces acting on an object are balanced, they cancel each other out and the result is no change in its motion.
Balanced forces have no effect on motion. Unbalanced forces cause acceleration.
Not necessarily. Forces can act on an object even if it is not in motion, causing it to accelerate or just balance out other forces. The net force on an object determines its motion, accounting for all forces acting on it.
The forces acting on a marble, such as gravity and friction, determine its acceleration and direction of motion. These forces can cause the marble to speed up, slow down, change direction, or come to a stop depending on their magnitude and direction. The net force acting on the marble will ultimately determine its overall motion.
The forces acting on a moving object include: gravity, friction, air resistance, and any applied forces such as pushing or pulling. These forces can affect the speed, direction, and motion of the object.
The two main forces acting on a projectile are gravity, which pulls the projectile downward, and air resistance, which acts in the opposite direction to slow down the projectile's motion. Other forces, such as propulsion or wind, can also affect the motion of a projectile.
The term "balanced" is usually used for forces, not for motion. The term "balance" might also be used in the sense of an object being "in balance", meaning that it doesn't move. If an object is in motion, then of course it will change. Specifically, it's position will change.
Balanced forces do not change its motion (no acceleration). Unbalanced forces changes the motion of the object (acceleration).
Not necessarily. Forces can act on an object even if it is not in motion, causing it to accelerate or just balance out other forces. The net force on an object determines its motion, accounting for all forces acting on it.
"Balanced forces" means a set of forces that add up to zero.This group of forces acting on a single object have no effect on its motion, because they add up to zero,and their effect is equivalent to zero force on the object.
When the forces acting on an object are balanced, they cancel each other out and the result is no change in its motion.Balanced forces have no effect on motion. Unbalanced forces cause acceleration.
The forces acting on a marble, such as gravity and friction, determine its acceleration and direction of motion. These forces can cause the marble to speed up, slow down, change direction, or come to a stop depending on their magnitude and direction. The net force acting on the marble will ultimately determine its overall motion.
The forces acting on a moving object include: gravity, friction, air resistance, and any applied forces such as pushing or pulling. These forces can affect the speed, direction, and motion of the object.
Constant acceleration is the resulting motion of forces acting on an unbalanced bicycle.
The two main forces acting on a projectile are gravity, which pulls the projectile downward, and air resistance, which acts in the opposite direction to slow down the projectile's motion. Other forces, such as propulsion or wind, can also affect the motion of a projectile.
The term "balanced" is usually used for forces, not for motion. The term "balance" might also be used in the sense of an object being "in balance", meaning that it doesn't move. If an object is in motion, then of course it will change. Specifically, it's position will change.
the motion in any specific direction following any path in the action of force is called balanced motion . Where as the motion in an y direction due to the force is called unbalance motion motion.
An object is in equilibrium when the opposing forces acting on it are balanced, resulting in no overall change in its motion. This state can be achieved when the forces applied to the object are equal in magnitude and opposite in direction.
Yes, it is possible for an object to not be in motion and still have forces acting on it. This situation could occur if the forces acting on the object are balanced, resulting in a state of equilibrium where there is no net force causing motion.