That same block in a different configuration (also in Figure 2), in which the block is placed vertically, has an area of contact with the surface upon which it is resting of 0.01 m 2, thus exerting a pressure of 10,000 Pa-10 times larger than the first configuration due to a decrease in the surface area by a factor of 10. It has an area of contact (with the surface upon which it is resting) of 0.1 m 2, thus exerting a pressure of 1,000 Pa on that surface. A rectangular block weighing 1000 N is first placed horizontally. Pressure can be increased by either increasing the force or by decreasing the area or can oppositely be decreased by either decreasing the force or increasing the area. ![]() Since pressure depends only on the force acting perpendicular to the surface upon which it is applied, only the force component perpendicular to the surface contributes to the pressure exerted by that force on that surface. Representation of Pressure: This image shows the graphical representations and corresponding mathematical expressions for the case in which a force acts perpendicular to the surface of contact, as well as the case in which a force acts at angle θ relative to the surface. shows the graphical representations and corresponding mathematical expressions for the case in which a force acts perpendicular to the surface of contact, as well as the case in which a force acts at angle θ relative to the surface. The magnitude of the pressure exerted by an object on a given surface is equal to its weight acting in the direction perpendicular to that surface, divided by the total surface area of contact between the object and the surface. Any object that possesses weight, whether at rest or not, exerts a pressure upon the surface with which it is in contact.
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