thank you for replying, but are you saying that each point on the surface will have 2 values of pressure ? In hydrostatics I was told that each point of the liquid will have only one pressure value by Pascal's law(P=p+xdg, where p is pressure at free surface, g is g effective(resultant of pseudo acceleration and g) and x is the distance of the point from free surface along the direction of g effective), if the container acceleratesDale said:The pressure will be 100/A on one side and 30/A on the other side. The different pressure on each side will lead to acceleration.
Perhaps you should provide more detail about your scenario. I was envisioning a metal disk with pressure applied on both sides of the disk.Logic hunter said:are you saying that each point on the surface will have 2 values of pressure ?
I was talking about theoretical case like those involving calculations on moment of inertia of circles, rectangles about a axis etc, assuming they have weight and dealing with 1 dimensional objects (points) in force and laws of motion.Chestermiller said:If your circle is truly 2D and flat, it has no mass, and you can't sustain a pressure difference across it. If you try, you will have an infinite rate of acceleration. In systems involving a massless frictionless piston, the pressures on both faces of the piston must always match irrespective of how rapidly the gas is expanding or compressing.
Yes the disk is a metal one. Its just that a single point on disk having two pressure 100/A on one side and 30/A on the other was something unusal because i have mostly calculated only one pressure value for a point.Dale said:Perhaps you should provide more detail about your scenario. I was envisioning a metal disk with pressure applied on both sides of the disk.
Think about the hull of a submarine. It has a huge pressure outside and a low pressure inside.Logic hunter said:Yes the disk is a metal one. Its just that a single point on disk having two pressure 100/A on one side and 30/A on the other was something unusal because i have mostly calculated only one pressure value for a point.
And if you wonder why the walls of a sub don't accelerate due to the huge pressure difference its because there are other forces acting on the walls so the net force on any bit of wall is zero (assuming the sub is stationary).Dale said:Think about the hull of a submarine. It has a huge pressure outside and a low pressure inside.
The pressure on a surface can be calculated by dividing the force exerted on the surface by the surface area. This can be represented by the equation: Pressure = Force / Surface Area.
The SI unit for pressure is Pascal (Pa), which is equivalent to 1 Newton per square meter (N/m²). Other commonly used units for pressure include pounds per square inch (psi) and atmospheres (atm).
The two types of forces that can exert pressure on a surface are normal force and shear force. Normal force is perpendicular to the surface, while shear force is parallel to the surface.
In this case, the total pressure on the surface can be calculated by adding all the individual pressures exerted by each force. This can be represented by the equation: Total Pressure = Pressure1 + Pressure2 + ... + PressureN.
Yes, the pressure on a surface can indicate the direction of the net force. If the pressure is greater on one side of the surface compared to the other, then the net force is acting in the direction of the higher pressure.