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 liquid with higher density will exert a greater buoyant force. This is because buoyant force is proportional to the density of the liquid displaced by the object.
When you pull on a window shade, you exert a force in the direction of the pull. This force can cause the shade to move in the direction you are pulling.
You exert force when you pull on anything.
When you pull on a window shade, you exert a force in the direction of the pull. This force causes the shade to move either up or down, depending on how you are pulling it.
When you exert a force on an object, it exerts an equal and opposite force on you, as described by Newton's third law of motion. This means for every action force, there is a reaction force of equal magnitude in the opposite direction.
if you are asking in which direction does a liquid exert pressure on the object? then, liquid exert force in the upward direction which is called buoyancy. Brief description: when a body is partially or wholly immersed, it displaces the fluid. the displaced fluid had tendency to regain it's original position position. due to this, an upward force is exerted on the body by the displaced fluid. this upward force actiong on the the body immersed in a fluid is called upward thrust or buoyancy force or simply buoyancy.
No it does notIt may change direction but obviosly it cannot exert you force
A liquid with higher density will exert a greater buoyant force. This is because buoyant force is proportional to the density of the liquid displaced by the object.
When you pull on a window shade, you exert a force in the direction of the pull. This force can cause the shade to move in the direction you are pulling.
Direction
You exert force when you pull on anything.
If you exert a force on an object in motion you will change its velocity, velocity being a vector quantity of speed and direction.
Machines make work easier by: -Changing the amount of force you exert -Changing the distance in which you exert your force -Changing the direction in which you exert your force
A machine makes work easier by changing the amount of force you exert, the distance over which you exert your force, or the direction in which you exert your force.
When you pull on a window shade, you exert a force in the direction of the pull. This force causes the shade to move either up or down, depending on how you are pulling it.
When you exert a force on an object, it exerts an equal and opposite force on you, as described by Newton's third law of motion. This means for every action force, there is a reaction force of equal magnitude in the opposite direction.
The ability of a liquid to exert an upward force on an object is called buoyancy. This force is generated due to the difference in pressure between the top and bottom of the object when submerged in the liquid, pushing the object upwards. Buoyancy is determined by the volume of the liquid displaced by the object.