downward
Because they are solid so their atoms hit each other and exert a force back on the other one that causes them to go in opposite directions.
Liquid exerts force in all directions due to its property of fluidity. This is known as hydrostatic pressure, which is the pressure exerted by a liquid at rest. The force is distributed evenly in all directions within the liquid.
A vapor material exerts a pressure in all directions equally, as described by the ideal gas law. This means that the vapor applies a force outward in all directions, including against the walls of a container.
According to Newtons 3rd law, "Every action has an equal and opposite reaction". if you exert force on an object, the object will exert an equal and opposite force on you. when the forces exerted by you and the object balance a state of equilibrium is attained. however if you exert a force greater than the weight of the body, the body begins to move and work is done.
Yes, solids can exert pressure when a force is applied to them. The pressure is distributed over the area in contact with the solid, and it can cause deformation or compression depending on the material's properties.
The objects with bigger masses exert more pulling force. However, even though all the matter around us exert a force, their masses are too small for them to exert a 'feelable' force. But yes, they do exert a force, but its negligible.
The force you exert towards yourself is called self-force or self-interaction force.
The force you exert on a sponge when you squeeze it is called compression force.
The force that you exert on a lever can be called the effort force. The lever has three parts. They are: the fulcrum, the load, and the effort force. This can also be classified as the input force. The force that you exert to perform a task is known as the input force.
All directions equally. Think of how a balloon blows up..... It expands with equal force all across the area of the balloon.
do you exert more force when you are further from the fulcrum
You exert force when you pull on anything.