Kinetic (via transference of intertia), and Strong Nuclear (the actual interaction between atoms), depending on context.
Forces that result in no change in an object's motion balanced forces.
Some forces that do not cancel out or change an object's motion include net external forces, such as applied forces, frictional forces, and gravitational forces. These forces can cause changes in an object's motion, such as accelerating or decelerating it.
Forces between objects that are touching each other are typically contact forces, such as friction or tension. These forces result from the interaction between the surfaces of the objects and can affect their motion or deformation. The magnitude and direction of these contact forces depend on factors like the nature of the surfaces involved and the normal force pressing the surfaces together.
In a collision, forces like impact, friction, and compression act on the objects involved. These forces can cause deformation, damage, or changes in motion to the objects. The impact force determines the severity of the collision and the resulting effects on the objects.
Not balanced. The net force acting on the object is not zero.
http://www.youtube.com/watch?v=psuRGfAaju4
All forces involve the interactions between objects, causing changes in motion or deformation. They are described by magnitude, direction, and point of application. Forces obey Newton's laws of motion and can be classified as contact forces or action-at-a-distance forces.
Forces that result in no change in an object's motion balanced forces.
Forces can change the motion of objects by causing them to speed up, slow down, change direction, or deform. This change in motion is governed by Newton's laws of motion, which describe how forces interact with objects to cause them to accelerate or decelerate.
Causes of motion include forces acting on an object, such as pushing or pulling. Effects of motion can vary, such as changes in position, speed, or direction of an object. Motion can also lead to interactions with other objects or changes in energy levels.
When objects move, their position changes with respect to time, which can be described using concepts such as velocity and acceleration. These changes in position are governed by the laws of physics, specifically Newton's laws of motion, which explain how objects interact with forces to produce motion. Observing the motion of objects allows scientists to analyze and predict their behavior based on mathematical models and principles of motion.
All objects resist changes in their state of motion