ferromagnetic

In physics|lang=en terms the difference between ferromagnetic and superparamagnetic

is that ferromagnetic is (physics) of a material, such as iron or nickel, that is easily magnetized while superparamagnetic is (physics) of, pertaining to, or exhibiting superparamagnetism.

As adjectives the difference between ferromagnetic and superparamagnetic

is that ferromagnetic is (physics) of a material, such as iron or nickel, that is easily magnetized while superparamagnetic is (physics) of, pertaining to, or exhibiting superparamagnetism.

As adjectives the difference between ferromagnetic and undefined

is that ferromagnetic is (physics) of a material, such as iron or nickel, that is easily magnetized while undefined is lacking a definition or value.

In physics|lang=en terms the difference between ferroelectric and ferromagnetic

is that ferroelectric is (physics) of, or relating to the permanent electrical polarization of a crystalline dielectric in an electric field while ferromagnetic is (physics) of a material, such as iron or nickel, that is easily magnetized.

As adjectives the difference between ferroelectric and ferromagnetic

is that ferroelectric is (physics) of, or relating to the permanent electrical polarization of a crystalline dielectric in an electric field while ferromagnetic is (physics) of a material, such as iron or nickel, that is easily magnetized.

As a noun ferroelectric

is a ferroelectric material.

In physics|lang=en terms the difference between ferromagnetic and ferrimagnetism

is that ferromagnetic is (physics) of a material, such as iron or nickel, that is easily magnetized while ferrimagnetism is (physics) a form of antiferromagnetism in which some magnetization remains below a critical temperature (the neel temperature).

As an adjective ferromagnetic

is (physics) of a material, such as iron or nickel, that is easily magnetized.

As a noun ferrimagnetism is

(physics) a form of antiferromagnetism in which some magnetization remains below a critical temperature (the neel temperature).

As an adjective ferromagnetic is

(physics) of a material, such as iron or nickel, that is easily magnetized.

In physics terms the difference between ferromagnetic and coercitivity

is that ferromagnetic is of a material, such as iron or nickel, that is easily magnetized while coercitivity is a measure of the field that has to be applied to a ferromagnetic material to make its magnetization equal to zero.

As an adjective ferromagnetic

is of a material, such as iron or nickel, that is easily magnetized.

As a noun coercitivity is

a measure of the field that has to be applied to a ferromagnetic material to make its magnetization equal to zero.

In physics|lang=en terms the difference between ferromagnetic and ferromagnetics

is that ferromagnetic is (physics) of a material, such as iron or nickel, that is easily magnetized while ferromagnetics is (physics) the science and technology of ferromagnetic materials.

As an adjective ferromagnetic

is (physics) of a material, such as iron or nickel, that is easily magnetized.

As a noun ferromagnetics is

(physics) the science and technology of ferromagnetic materials.

In physics|lang=en terms the difference between ferromagnetic and graphone

is that ferromagnetic is (physics) of a material, such as iron or nickel, that is easily magnetized while graphone is (physics) a partially hydrogenated form of graphene that is ferromagnetic.

As an adjective ferromagnetic

is (physics) of a material, such as iron or nickel, that is easily magnetized.

As a noun graphone is

(physics) a partially hydrogenated form of graphene that is ferromagnetic.

As adjectives the difference between ferromagnetic and nonferromagnetic

is that ferromagnetic is (physics) of a material, such as iron or nickel, that is easily magnetized while nonferromagnetic is not ferromagnetic.