1. push 2.pull
Examples of direct forces include pushing a car to move it, pulling a door to open it, or kicking a ball to make it move. These forces directly act on an object to cause a change in its motion or state.
Yes, forces can cause changes in the motion of an object. When a force is applied to an object, it can alter its speed, direction, or position depending on the magnitude and direction of the force.
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.
there are several conditions. 1) if they are acting on the straight line(toward each other or against each other) they'll be canceled out n no motion will take place. 2) if forces are on some possible angle then might some motion take place.
yes it depends if you push or pull if you do then thats motion
Examples of direct forces include pushing a car to move it, pulling a door to open it, or kicking a ball to make it move. These forces directly act on an object to cause a change in its motion or state.
Yes, forces can cause changes in the motion of an object. When a force is applied to an object, it can alter its speed, direction, or position depending on the magnitude and direction of the force.
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.
there are several conditions. 1) if they are acting on the straight line(toward each other or against each other) they'll be canceled out n no motion will take place. 2) if forces are on some possible angle then might some motion take place.
yes it depends if you push or pull if you do then thats motion
Any and all matter.
Unbalanced forces are also known as "net forces" and are expressed as a vector of the total forces acting on the object. This will be directly proportional to the acceleration of the object (the other factor being mass).
When a force is applied to an object but does not cause the object to move, it means that the force is balanced by an equal and opposite force, resulting in a state of equilibrium. This can happen when the applied force is opposed by friction, gravity, or some other force preventing movement.
Some types of stress forces include compression (pushing or squeezing together), tension (pulling or stretching apart), shear (sliding or twisting forces), and bending (forces that cause an object to bend). These forces can affect the shape and structure of an object or material.
True. Changes in motion are caused by forces acting on an object, such as gravity, friction, air resistance, and applied forces. These forces can either speed up, slow down, change the direction, or stop the motion of an object.
What kind of object in what kind of motion? The question is too vague to answer, and the forces depend on the properties of the object and its environment anyway. For example, there might ... or might not ... be significant electromagnetic and/or gravitational forces acting on the object (technically, any real object in the real universe WILL have electromagnetic and gravitational forces acting on it, but they may be insignificant in some cases).
Internal forces are forces that act within an object or structure, such as tension, compression, shear, and bending. These forces arise due to interactions between different parts of the object and can cause deformation or stress within the material. Internal forces are important to consider in engineering and design to ensure the stability and integrity of a structure.