One force that affects and object is air pressure which is the force pushing on an area or surface.
Pressure is defined as a force per unit area directed normal to the surface.Pressure is not defined in terms of the force one object exerts on another object, but such a circumstance that certainly is an example of a pressure.Caveat: Admittedly, one could argue as to how any force could be exerted on an object if it were not in contact with another, but such is too limited an idea for a definition. One would have difficulty characterizing pressure in the depths of the ocean if one had to identify what objects were in contact. One must further note that pressure is not a vector whereas force is a vector.
One example of a force that starts with the letter "p" is the force of propulsion, which is the driving force that moves an object forward.
A force is a push or a pull which changes how fast an object moves. Pressure is the force on an object divided by the area over which the force is spread. A force will change the velocity of an object. This means it will start it moving if it is still, stop it moving, speed it up, slow it down or change its direction! Pressure takes into account the area over which the force is acting. A force spread over a big area will give a low pressure. The same force spread over a small area will give a high pressure. For an excellent account of force and pressure see the links below. You might think of force as a 'vector' and pressure as a 'scalar'. A vector must include direction as a parameter as well as magnitude; and a scalar has magnitude without dependence on direction. Force on an object when the force is not balanced by other forces will compel an object to move. An object sitting motionless at one atmosphere of pressure will not be compelled to move simply because of the presence of the pressure alone. Pressure is the force over an area applied to an object in a direction perpendicular to the surface. Force is a push or pull that can cause an object with mass to accelerate. Force has both magnitude and direction. p = F / A, where:p is the pressure,F is the normal force,A is the area.
When one object applies a force to a second object, we call this force the action force.
well it is trees i am a A student
One force that affects and object is air pressure which is the force pushing on an area or surface.
Pressure is defined as a force per unit area directed normal to the surface.Pressure is not defined in terms of the force one object exerts on another object, but such a circumstance that certainly is an example of a pressure.Caveat: Admittedly, one could argue as to how any force could be exerted on an object if it were not in contact with another, but such is too limited an idea for a definition. One would have difficulty characterizing pressure in the depths of the ocean if one had to identify what objects were in contact. One must further note that pressure is not a vector whereas force is a vector.
One example of a force that starts with the letter "p" is the force of propulsion, which is the driving force that moves an object forward.
This is comparable to two people pushing an object in opposite directions; if one pushes with more force than the other, the object will move in that direction (the direction in which more force is applied).Note that pressure is force per unit area.
A force is a push or a pull which changes how fast an object moves. Pressure is the force on an object divided by the area over which the force is spread. A force will change the velocity of an object. This means it will start it moving if it is still, stop it moving, speed it up, slow it down or change its direction! Pressure takes into account the area over which the force is acting. A force spread over a big area will give a low pressure. The same force spread over a small area will give a high pressure. For an excellent account of force and pressure see the links below. You might think of force as a 'vector' and pressure as a 'scalar'. A vector must include direction as a parameter as well as magnitude; and a scalar has magnitude without dependence on direction. Force on an object when the force is not balanced by other forces will compel an object to move. An object sitting motionless at one atmosphere of pressure will not be compelled to move simply because of the presence of the pressure alone. Pressure is the force over an area applied to an object in a direction perpendicular to the surface. Force is a push or pull that can cause an object with mass to accelerate. Force has both magnitude and direction. p = F / A, where:p is the pressure,F is the normal force,A is the area.
When one object applies a force to a second object, we call this force the action force.
That is correct. Pressure is the force applied perpendicular to the surface of an object per unit area. It is calculated by dividing the force applied by the area over which the force is distributed. The SI unit for pressure is the pascal (Pa), which is equivalent to one newton per square meter.
No. Quite on the contrary: Air provides a buoyant force, that will partially counteract the force of gravity. And if the object has a low density (as in a balloon), it may even get the object from the ground.
A push is a force applied by one object on another in the direction away from the object exerting the force. A pull is a force applied by one object on another in the direction towards the object exerting the force.
Force....pressure=force/area, so if you transferred to one foot on the scale it would read half your weight, but that is not the case because it reads force so on one foot the reading is the same
Then one force is overcoming another force, and the object moves.