It can be taken as infinity
If the temperature increases, the conductivity will increase too which means the dielectric constant is reduced
Dielectrics must be electrical insulators. Metals are good conductors. As a result, metal can never be used as a dielectric in a capacitor.
Dielectric constant is a measure of the ability of a substance to store electrical energy.
Compared to a vacuum (dieletric constant = 1), or air (dielectric constant is close to 1), the capacitance will be five times as great in this case (other things being equal).
The dielectric constant of water varies with temperature and is approximated by this polynomial equation: E = 87.740 - 0.40008*t + 9.398*(10^-4)*t^2 - 1.410*(10^-6)*t^3
The dielectric constant varies, depending on the material.
dielectric constant
dielectric constant for sodium Hypochlorite
'Dielectric constant' is an archaic term for relative permittivity. They are one and the same.
If the temperature increases, the conductivity will increase too which means the dielectric constant is reduced
No, these are two unrelated properties of a material.
infinite
E = Eo/k k is dielectric constant
10.6
Dielectrics must be electrical insulators. Metals are good conductors. As a result, metal can never be used as a dielectric in a capacitor.
dielectric constant is a property of a material, this question is asking the property of a two mixed together, in an undeclared ratio. But yes dielectric constants can be measured. The problem you will have is keeping a uniform mix.
The dielectric constant is the ratio of the permittivity of a substance to the permittivity of free space. It is an expression of the extent to which a material concentrates electric flux, and is the electrical equivalent of relative magnetic permeability. As the dielectric constant increases, the electric flux density increases, if all other factors remain unchanged. This enables objects of a given size, such as sets of metal plates, to hold their electric charge for long periods of time, and/or to hold large quantities of charge. Materials with high dielectric constants are useful in the manufacture of high-value capacitors.