The concept of "area mass" is not a widely used term in physics or mathematics. However, if you are referring to the concept of mass per unit area, it is typically used in materials science or engineering to describe the density of a material. It refers to the mass of a substance per unit area, and is often expressed in units such as kilograms per square meter (kg/m^2).
Mass has no direct effect on the surface area of an object. You can increase mass without changing anything other property of an object. Volume, Size, and Shape effect surface area.
A planet with a greater mass does not necessarily have greater surface area than one with less mass. The planet could be made of denser material and have a smaller surface area. Mass doesn't always mean volume.
we know pressure = force/area we can calculate force from this equation therefore force =mass *acceleration a=9.8 finally we obtain the mass.
This question has no sensible answer. A sq ft is a measure of area while a ton is a measure of mass. An area has no mass and a mass, while it has volume, has no specific area. It is, therefore, impossible to convert one measure to the other.
By area - its the 4rd largest land mass.
Mass = Pressure*Area
Pressure=mass/unit area
A mcg is a measure of mass, not of area.
No, the mass of a planet is not directly related to its surface area. Surface area is determined by the size and shape of the planet, not just its mass. For example, Earth has a smaller mass than Jupiter, but a larger surface area due to its size and composition.
Mass and area do not provide sufficient information to answer the question.
Mass has no direct effect on the surface area of an object. You can increase mass without changing anything other property of an object. Volume, Size, and Shape effect surface area.
Mass
Mass Divided By Area Equals Density
Mass is a measure of the amount of matter in an object, while area is a measure of the amount of space it occupies. The mass of an object is not directly related to its area, as mass depends on the volume of the object (which is related to both area and height for 3D objects). Different objects with the same area can have different masses depending on their density and shape.
A planet with a greater mass does not necessarily have greater surface area than one with less mass. The planet could be made of denser material and have a smaller surface area. Mass doesn't always mean volume.
Density = Mass/Volume so Volume = Mass/Density. Therefore the Volume can be calculated. Volume = Area [of cross section] * Width So Width = Volume/Area.
we know pressure = force/area we can calculate force from this equation therefore force =mass *acceleration a=9.8 finally we obtain the mass.