The answer depends on the what the leading coefficient is of!
Depends on the equation.
The numerical coefficient of 49n is n. It refers to the constant multiplicative factors that is attached to the mathematical expression variables.
It depends on what the underlying distribution is and which coefficient you want to calculate.
The correct set of coefficient for an equation depends with the equation in question. There are many types of equations.
physical significance of hall coefficient
hall coefficient of a lightly doped semiconductor will decrease with increase in temp as hall coefficient is inversely proportional to number density of charge carriers.
The Hall coefficient has the same sign as the charge carrier. The charge carrier in a normal electric current, the electron, is negative, and as a result the Hall coefficient is negative.
[m^3/C]
The absorption coefficient of aluminum typically depends on factors such as the thickness of the aluminum and the wavelength of the incident radiation. In general, aluminum has good optical transparency in the visible spectrum but absorbs strongly in the ultraviolet and infrared regions. Its absorption coefficient can vary from near-zero to high values depending on these factors.
The answer depends on the what the leading coefficient is of!
The difference between factors and coefficient is very distinct. A factor is a quantity which is multiplied with another to give a particular number as the result. A coefficient on the other hand is a multiplier that measures property.
The Hall coefficient of germanium typically ranges from 0.003 to 0.006 m^3/C. It is a material property that characterizes the ability of a material to conduct current perpendicular to an applied magnetic field.
Depends on the equation.
yes,according to relation coefficient of linear expansion depends upon original length.
Nothing. It depends what you're talking about specifically. Coefficient is just a number in an equation.
The Hall coefficient of germanium is typically around -0.018 cm³/C. This value indicates the sign and magnitude of the charge carriers in germanium, which are primarily electrons. The negative sign indicates that the charge carriers are negatively charged electrons.