Pressure=mass/unit area
Pressure = force / area,so: force = pressure x area You would first have to calculate the area.
mass is the answer
times it together
Mass = Density x Volume
Volume= Length x Height x thickness = Mass ---------- Density So, Thickness = Mass ---------------------------------- Density x Length x Height
Mass = Pressure*Area
Mass and area do not provide sufficient information to answer the question.
we know pressure = force/area we can calculate force from this equation therefore force =mass *acceleration a=9.8 finally we obtain the mass.
Yes, mass indirectly affects pressure. Pressure is directly related to force and area, so the more mass there is within a given area, the higher the pressure will be. More mass exerts a greater force on the surface, leading to increased pressure.
Density = Mass/Volume So you'd need the mass.
Pressure is defined as the amount of force applied to a given amount of area. Therefore pressure is derived from force and distance. Force itself is derived from time, distance, and mass and area is derived from distance.
There is not enough information to calculate pressure. Here are some relevant formulae: Force = mass x acceleration Pressure = force / area
Density = Mass/Volume so Volume = Mass/Density. Therefore the Volume can be calculated. Volume = Area [of cross section] * Width So Width = Volume/Area.
Velocity is not involved in the definition of pressure, so knowing it doesn't help you calculate pressure. Pressure = force/area You may be talking about wind pressure, which obviously does depend on the speed of the wind, or on the speed of the object through quiet air. In order to know the wind force, you have to know the specific size, shape, dimensions, and surface texture of the object past which the air is moving.
Pressure is defined as force per unit area, not per unit mass. It is the force applied perpendicular to a surface divided by the area over which the force is distributed. Mathematically, pressure is given by the formula P = F/A, where P is pressure, F is force, and A is area.
Air mass - refers to any area of high or low pressure. A front - is the point at which an area of high pressure meets an area of low pressure.
The relationship that exists between mass and pressure is that the absolute pressure and volume of a given mass of confined gas are inversely proportional, while the temperature remains unchanged within a closed system.